US11677278B2
A wireless charger is provided. The wiles charger includes a housing defining an opening hole. A lifting module is received in the housing and movable up and down in the housing. A translation module is disposed on the lifting module and capable of translating in the housing and movable up and down along with the lifting module. A charging module is arranged on the translation module, configured to charge a device to be charged, and capable of translating in the housing along with the translation of the charging module. A connecting module is disposed on the lifting module, arranged correspondingly to the opening hole, and configured to be connected to the device to be charged. The lifting module is capable of driving the connecting module to move up and down and be further exposed out of the housing from the opening hole.
US11677272B2
A wireless power transmitting device includes: an upper coil including a first tubular spiral coil and a first planar spiral coil disposed beneath the first tubular spiral coil; a lower coil including a second planar spiral coil disposed to face the first planar spiral coil and a second tubular spiral coil disposed beneath the second planar spiral coil; a connecting stub configured to connect the upper coil and the lower coil to each other; and a power source configured to supply a power to the upper coil or the lower coil. The first planar spiral coil and the second planar spiral coil generate an electric field and a magnetic field in a resonance state to transfer at least some of the power from the power source to an external wireless power receiving device through the electric field and the magnetic field.
US11677265B2
An uninterruptible power supply (UPS) is operated to selectively provide energy to a critical load from a grid and an energy storage device and to transfer energy between the energy storage device and the grid. A controller causes the UPS to selectively support bidirectional and unidirectional transfers of energy between the grid and the energy storage device based on a state of charge (SOC) of the energy storage device.
US11677263B2
An off grid electric vehicle charging system that includes an off grid power supply system and an electric vehicle charging plug adapted to connect with any electric vehicle and provide electric power thereto. The off grid power supply system incorporates rechargeable battery members adapted to provide uninterruptible off grid electrical power and are charged and recharged by solar panels and/or wind turbines and/or a water wheel. Furthermore, when the solar panels and/or wind turbines and/or a water wheel are insufficient to recharge the battery members a motorized engine is automatically started to recharge the battery members until the solar panels and/or wind turbines and/or a water wheel are sufficiently operable to recharge the battery members once again. The electric vehicle charging plug is adapted to connect with any electric vehicle and provide DC electric power thereto. The system further includes an alternator for converting the electricity from the battery members into DC electrical current, automatic on/off switches, and a control panel.
US11677261B2
A load control device for controlling power delivered from an AC power source to an electrical device may be configured to conduct current through earth ground and may disconnect a switching circuit to reduce an amount of current conducted through the earth ground. The load control device may comprise a controllably conductive device configured to control the power delivered from the AC power source to the electrical device so as to generate a switched-hot voltage, a switching circuit electrically coupled with a detect circuit, and a control circuit configured to render the switching circuit conductive and nonconductive. The detect circuit may generate a detect signal indicating a magnitude of the switched-hot voltage. The control circuit may be configured to monitor the detect signal and to render the switching circuit non-conductive after detecting an edge on the detect signal to reduce the total current through the earth ground.
US11677244B2
A power control system controlling a demand-supply balance of electric power in a distribution network by controlling charge/discharge operations of storage batteries of a plurality of vehicles connected to the distribution network, includes a control unit, which creates a charge/discharge operation plan of the storage batteries within a predetermined period using a power supply and demand plan of the distribution network within the predetermined period and vehicle information indicating states of the vehicles within the predetermined period, extracts time and a point at which a voltage of the distribution network is not within a predetermined range using the charge/discharge operation plan of the storage batteries, creates a reactive power control plan for injecting reactive power at the extracted time and point to keep the voltage of the distribution network within the predetermined range, and controls the reactive power according to the created reactive power control plan.
US11677231B2
The present disclosure is directed to a single-phase reclosing method, device and storage medium for AC/DC system. The method comprises: acquiring three-phase voltages at inverter-side AC bus close to the transformer, three-phase currents measured at the outlet of inverter-side AC line and three-phase voltages at inverter-side AC bus far from the transformer; calculating the energy calculation value and energy operation value of the fault line; identifying the fault nature of fault line within the maximum time delay, according to the energy calculation value and energy operation value of fault line and an energy criterion of transient/permanent fault; issuing a reclosing control signal based on the fault nature of fault line to realize effective reclosing of the fault line.
US11677223B2
Grounding assemblies for cables entering telecommunications enclosures. The grounding assemblies include a cable fixation subassembly and a grounding subassembly that are electrically coupled together to ground strength members and a conductive shield of a cable. The cable fixation subassembly can fixate the cable such that the strength members lie in a plane that is at a non-zero angle relative to each of a horizontal reference plane and a vertical reference plane.
US11677202B2
A contact ring including a ring-shaped structure formed of an electrically conductive material. The ring-shaped structure has a plurality of projections on at least one side and a plurality of blades on at least one side. The projections and the blades penetrate an electrically insulating surface layer of each of a pair of contact elements and contact an electrically conductive material of each of the contact elements to electrically connect the contact elements.
US11677199B2
An electrical power or data system includes an electrical power or data supply cord and an intermediate power or data cord, a first electrical power or data outlet receptacle disposed between the supply cord and the intermediate cord, and a second electrical power or data outlet receptacle at a distal end of the intermediate cord. The first electrical power or data outlet is positionable below a work surface, while the second electrical power or data outlet is mountable to the work surface. At least one of the electrical cords may include a self-retracting cord section.
US11677192B2
A connector assembly includes a metal shielding cage. The metal shielding cage includes a cage body, a back cover and a grounding member. The cage body has a top wall, a mounting side and two side walls, the top wall, the mounting side and the two side walls together define a receiving space extending along a front-rear direction, the receiving space has a front opening toward the front and a rear opening positioned at the rear, the back cover and the grounding member are assembled at the rear opening of the cage body, and the grounding member is provided with an elastic grounding finger row toward the mounting side.
US11677191B2
An electrical connector including an insulating body, a plurality of terminals disposed in the insulating body, a first metallic shell enclosing the insulating body to form an interface for being plugged by another electrical connector, and a second metallic shell is provided. The first metallic shell has a first soldering leg close to the interface, and the second metallic shell encloses the first metallic shell, wherein the first soldering leg extends away from the insulating body, penetrates the second metallic shell and protrudes out of the second metallic shell.
US11677185B2
An electrical connector includes a housing, a primary locking sleeve disposed on the housing, and a securing tab. The housing has a receptacle open in a connection direction essentially parallel to a longitudinal axis, the receptacle receiving a complementary connector. The primary locking sleeve is movable relative to the housing between a locked position securing the electrical connector and the complementary connector and a release position for connecting and/or disconnecting the electrical connector and the complementary connector. A gap having a gap width is disposed between the housing and the primary locking sleeve at least in the locked position. The gap width decreases from the locked position to the release position. The securing tab is insertable at least partially into the gap to an inserted state to secure the primary locking sleeve in the locked position.
US11677173B2
An electrical connector includes an insulative housing having a mating cavity and a plurality of power contact pairs. Each power contact pair defines an upper contact set and a lower contact set, each one of the upper contact set and the lower contact set comprises a first contact unit and a second contact unit, each one of the first contact unit and the second contact unit has a retaining portion and at least one contacting portion extending from the retaining portion into the mating cavity. The retaining portions of the upper contact set are arranged in a height direction of the insulative housing with the contacting portions thereof arranged in a transverse direction of the insulative housing, the retaining portions of the lower contact set are arranged in the height direction with the contacting portions thereof arranged in the transverse direction.
US11677169B2
An insulation displacement contact is for piercing through an insulation of a cable or wire in a cutting direction and electrically contacting an electrically conductive core of the cable or wire. The insulation displacement contact includes a contact body having a piercing section for piercing the insulation and a contact slot receiving the core of the cable or wire. The contact slot extends along the cutting direction from the piercing section into the contact body. The contact body has a pair of blades separated by the contact slot. The blades have a pair of attachment slots extending from the piercing section into the blades.
US11677168B2
Various implementations of insulation piercing connectors are disclosed. The insulation piercing connectors include a simple and efficient design for providing electrical tap connections to a power cable for voltage detection purposes. The insulation piercing connector includes at least a top housing and a bottom housing that come together to receive the power cable. Terminal contacts are housed internally within the insulation piercing connector, and the terminal contacts are positioned to pierce the power cable when the insulation piercing connector is assembled into an operational state.
US11677166B2
An outer conductor contact element for a plug connector arrangement, having a fixing stop which engages behind a cable-side end face of a support sleeve and along a longitudinal axis (L) of the plug connector arrangement, and the cable-side end face is remote from a front, free end of the outer conductor contact element, and the fixing stop is formed in the outer conductor contact element by a male connector-side edge of a material cut-out in the outer conductor contact element that is proximate to a front, free end of the outer conductor contact element. Alternatively, or in addition, the fixing stop is formed by a separate stop element that is fastened to an inner wall of the outer conductor contact element. Alternatively, or in addition, the fixing stop is formed by a stamped shaping in the outer conductor contact element.
US11677159B2
According to one embodiment, an electronic apparatus comprises antenna elements and processor circuitry. The antenna elements are arranged respectively at least at first, second, third, and fourth positions. The first and second positions are arranged in a first direction. Spacing between the first positions and spacing between the second positions are coprime. The third and fourth positions are arranged in a second direction. Spacing between the third positions and spacing between the fourth positions are coprime.
US11677148B2
The present disclosure provides an electronic device including a metal housing and a plurality of antennas operating at different frequency bands. A frame of the metal housing is provided with at least one gap, each frame segment of frame segments on both sides of each gap is configured as a radiation structure shared by at least one antenna. Each antenna includes a signal circuit and a matching circuit, the matching circuit is coupled in series between the signal circuit of the antenna where the matching circuit is located and the radiation structure, and configured to output a signal matching with an operating frequency band of the antenna where the matching circuit is located and filter out signals that are coupled from other antennas of the gap and match with operating frequency bands of other antennas of the gap.
US11677144B1
The present invention provides an antenna array which includes a structure in the form of a hexagonal pyramid with a flat top surface/facet. According to preferred aspects, the pedestal support of the present invention preferably further includes six side facets which are preferably disposed 60 degrees from each other. Preferably, each side facet preferably supports a patch antenna and the top facet supports a top/zenith antenna. According to a preferred embodiment, the azimuth antennas may be offset from the ground plane by an angle between 20 and 60 degrees. The zenith antenna is preferably substantially parallel to the ground plane.
US11677142B2
An improved glazing unit extending along a plane, P, defined by a longitudinal axis, X, and a vertical axis, Z; having a width, DW, measured along the longitudinal axis, X, and a length, DL, measured along the vertical axis, Z, including a glass panel, a housing able to accommodate a communication device and an opening arranged on the glass panel. The present invention also discloses a communication system including a glazing unit, at least a 4G and/or 5G signal communication unit and a provider fixed station or active or passive repeater, which is placed at least at 1 m outside from the glazing unit, wherein the 4G and/or 5G signal communication unit is fixed to the glazing unit at the opposite side from the provider fixed station or active or passive repeater.
US11677138B2
The disclosure relates to a communication method and system for converging a 5th-Generation (5G) communication system for supporting higher data rates beyond a 4th-Generation (4G) system with a technology for Internet of Things (IoT). The disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. Disclosed is a cover device configured to protect an antenna device embedded in an electronic device to radiate a beam of an ultra-high frequency band, the cover device including: a cover frame including a window area corresponding to a radiation area of the antenna device; and a functional structure disposed in the window area on the cover frame and having a stacked structure comprising one or more functional layers.
US11677132B2
Disclosed is an antenna module including a circuit board, a communication circuit disposed on one surface of the circuit board, one or more antenna elements electrically connected to the communication circuit and arranged in at least a part of the circuit board, and a connection circuit board which includes an at least partially covered opening and is disposed on the one surface of the circuit board such that the communication circuit is disposed in an inner space of the connection circuit board.
US11677126B2
There is provided a phase shifter including a substrate, a signal line on the substrate, ground lines disposed in pairs on the substrate, and at least one film bridge. Two ground lines of the ground lines are on two sides of the signal line and are respectively spaced apart from the signal line. Each film bridge includes a plurality of connection walls and a bridge floor structure that is opposite to the substrate. The connection walls are respectively on the two ground lines. The bridge floor structure includes a phase shifting electrode and at least one pair of adsorption electrodes respectively connected to two sides of the phase shifting electrode. The phase shifting electrode is opposite to the signal line. Two adsorption electrodes in each pair are respectively opposite to the two ground lines, and are respectively connected to the connection walls on the two ground lines.
US11677119B2
To improve the safety of a secondary battery, the present disclosure provides a secondary battery including: a plurality of battery cells each including a case and an electrode assembly accommodated in the case; a plurality of first bus bars electrically connected to the plurality of battery cells and having a first thickness, the plurality of first bus bars being apart from each other with a predetermined gap therebetween; and a second bus bar arranged above the plurality of first bus bars and electrically connected to the plurality of first bus bars, the second bus bar having a second thickness greater than the first thickness.
US11677117B2
A battery module includes a box-shaped housing case that is open at an upper side and that does not include a hole formed in a side wall, a battery stack that includes plural battery cells stacked along a horizontal direction and that is housed inside the housing case, and a shim that is disposed between the battery stack and the housing case so as to press the battery stack along the stacking direction of the battery cells in a state in which the battery stack is housed inside the housing case.
US11677114B2
A battery module includes: a plurality of batteries stacked together; and a busbar that electrically connects the plurality of batteries with each other. The busbar has: a main body that extends along axis X along which the batteries are stacked together; and a plurality of connectors that protrude from the main body along an axis that intersects with the axis along which the batteries are stacked together, and are electrically connected with terminals of the batteries, respectively. The plurality of batteries are divided into a plurality of battery units. Each of the plurality of battery units includes at least two of the plurality of batteries. The busbar connects the at least two of the plurality of batteries of each of the battery units with each other in parallel. The busbar connects the battery units with each other in series.
US11677100B2
Provided herein are energy storage devices. In some cases, the energy storage devices are capable of being transported on a vehicle and storing a large amount of energy. An energy storage device is provided comprising at least one liquid metal electrode, an energy storage capacity of at least about 1 MWh and a response time less than or equal to about 100 milliseconds (ms).
US11677098B2
An all solid battery includes a multilayer chip in which each of a plurality of solid electrolyte layers including solid electrolyte and each of a plurality of internal electrodes including an electrode active material are alternately stacked, the multilayer chip having a rectangular parallelepiped shape, the plurality of internal electrodes being alternately exposed to two side faces of the multilayer chip other than two end faces of a stacking direction of the multilayer chip, and a pair of external electrodes that contacts the two side faces and include solid electrolyte.
US11677096B2
Solid electrolyte includes a first solid electrolyte that is a phosphate salt including Li and Ta, and a second solid electrolyte that is NASICON type solid electrolyte. In a cross section of the solid electrolyte, an area ratio of the first solid electrolyte is more than 10% and an area ratio of the second solid electrolyte is more than 10%.
US11677095B2
To provide a secondary battery that is suitable to a portable information terminal or a wearable device. To provide an electronic device having a novel structure that can have various forms and a secondary battery that fits the forms of the electronic device. The secondary battery includes a film provided with depressions or projections that can ease stress on the film due to application of external force. The sizes of the depressions or projections are different between a center portion and an end portion of the film. The end portion of the film is sealed with an adhesive layer. The depressions or projections of the film are formed by pressing such as embossing.
US11677088B2
A process for the preparation of a membrane electrode assembly comprising providing, in the following layer order, (I) a green supporting electrode layer comprising a composite of a mixed metal oxide and Ni oxide; (IV) a green mixed metal oxide membrane layer; and (V) a green second electrode layer comprising a composite of a mixed metal oxide and Ni oxide; and sintering all three layers simultaneously.
US11677084B1
A shell reinforcing structure for a fuel cell humidifier comprises a main body shell, fixed plates and grating mechanisms, wherein the side edges of the main body shell are fixedly connected with the fixed plates, the side edge of the fixed plate is provided with an end cover, the upper part of the end cover on the left side is fixedly connected with a dry air inlet tube, the left side of the upper part of the main body shell is fixedly connected with a moisture outlet tube, the right side of the upper part of the main body shell is fixedly connected with a moisture inlet tube, the upper end of the end cover on the right side is fixedly connected with a dry air outlet tube, fixed holes are formed in the side edge surface of the fixed plate.
US11677078B2
The present disclosure relates to electrodes comprising a polymer film and a substrate, wherein the polymer film has a thickness of about 5 nm to about 600 nm. The present disclosure also relates to electrochemical cells and batteries comprising the electrodes disclosed herein. The present disclosure also relates to methods of making the electrodes disclosed herein.
US11677076B2
A nickel-based active material precursor includes a particulate structure including a core portion, an intermediate layer portion on the core portion, and a shell portion on the intermediate layer portion, wherein the intermediate layer portion and the shell portion include primary particles radially arranged on the core portion, and each of the core portion and the intermediate layer portion includes a cation or anion different from that of the shell portion. The cation includes at least one selected from boron (B), magnesium (Mg), calcium (Ca), strontium (Sr), barium (Ba), titanium (Ti), vanadium (V), tungsten (W), chromium (Cr), iron (Fe), copper (Cu), zirconium (Zr), and aluminium (Al), and the anion includes at least one selected from phosphate (PO4), BO2, B4O7, B3O5, and F.
US11677067B2
The present invention relates to a method for manufacturing an anode of a lithium-ion battery capable of controlling an expansion directionality of an anode material whose volume expands by charging, and a lithium-ion battery including the anode manufactured by the method. More specifically, the present invention provides a method capable of improving the life of a lithium-ion battery by adjusting the tensile strength of a current collector and thus controlling the expansion directionality of an anode material, which expands during charging.
US11677065B2
The present invention relates to a cathode active material for a lithium secondary battery, and more particularly, to a cathode active material for a lithium secondary battery, which includes a core portion and a shell portion surrounding the core portion, in which a total content of cobalt in the core portion and the shell portion is 5 to 12 mol %, and the content of cobalt in the core portion and the shell portion is adjusted to be within a predetermined range. In the cathode active material precursor and the cathode active material for a secondary battery prepared using the same according to the present invention, optimal capacity of a lithium secondary battery may be increased by adjusting the cobalt content in the particles of the cathode active material, and life characteristics may be enhanced by improving stability.
US11677051B1
Embodiments described herein are directed towards enhanced systems and methods for applying underfill (UF) material to fill a gap between electrically coupled semiconductor devices in an integrated device. In some embodiments, uncured UF material may be applied to one edge of the gap, and capillary flow may be employed to distribute the uncured UF material into a first portion of the gap. To fill a second portion of the gap, accelerated motion may be employed. For example, the integrated device may be affixed to a centrifuge, and the centrifuge can be used to spin the integrated device to spread the uncured UF material further into the gap. In some embodiments, the accelerated motion may be employed to distribute the uncured UF material substantially uniformly within the gap. Once the uncured UF material has been spread out, one or more curing processes may be employed to cure the sandwiched UF material.
US11677048B2
A light emitting device includes a first light emitting element including a rectangular first light extraction surface, a second light emitting element including a rectangular second light extraction surface and emitting light having an emission peak wavelength different from an emission peak wavelength of the first light emitting element, and a light-transmissive member covering the first light extraction surface and the second light extraction surface. The light-transmissive member includes a first light-transmissive layer facing the first light extraction surface and the second light extraction surface, a wavelength conversion layer located on the first light-transmissive layer, and a second light-transmissive layer located on the wavelength conversion layer. The first light-transmissive layer contains a first matrix and first diffusive particles. The wavelength conversion layer contains a second matrix and wavelength conversion particles. The second light-transmissive layer contains a third matrix and second diffusive particles.
US11677046B2
A light-emitting device, comprising: a substrate; a semiconductor stacking layer comprising a first type semiconductor layer on the substrate, an active layer on the first semiconductor layer, and a second semiconductor layer on the active layer; and an electrode structure on the second semiconductor layer, wherein the electrode structure comprises a bonding layer, a conductive layer, and a first barrier layer between the bonding layer and the conductive layer; wherein the conductive layer has higher standard oxidation potential than that of the bonding layer.
US11677043B2
Described are light emitting diode (LED) devices including a combination of electroluminescent quantum wells and photo-luminescent active regions in the same wafer. A first group of QWs with shortest emission wavelength is placed between the p- and n-layers of a p-n junction. Other groups of QWs with longer wavelengths are placed outside the p-n junction in a part of the LED structure where electrical injection of minority carriers does not occur. Electroluminescence emitted by the first group of QWs is absorbed by other group(s) and re-emitted as longer wavelength light. The color of an individual die made on the wafer can be controlled by either etching away unwanted groups of longer-wavelength QWs at the position of that die, or keeping them intact. Wavelength-selective mirrors that increase down conversion efficiency may be selectively applied to die where longer wavelength emission is desired. The use of tunnel junction contacts facilitates integration of wavelength selective mirrors to external surfaces of the die and avoids problems of conductivity type conversion on etched p-GaN layers.
US11677035B2
A method for manufacturing a sensing device is provided. The method includes: providing a substrate; forming a sensing unit on the substrate; forming a first light-shielding layer on the sensing unit; forming a first anti-reflection layer on the sensing unit; and patterning the first light-shielding layer and the first anti-reflection layer using a single lithography process to form a first pinhole corresponding to the sensing unit.
US11677022B2
A semiconductor structure and a method for forming a semiconductor structure are provided. The semiconductor structure includes a substrate; a gate electrode disposed within the substrate; a gate dielectric layer disposed within the substrate and surrounding the gate electrode; a plurality of first protection structures disposed over the gate electrode; a second protection structure disposed over the gate dielectric layer; and a pair of source/drain regions on opposing sides of the gate dielectric layer.
US11677012B2
In a method for manufacturing a semiconductor device, fin structures each having an upper portion and a lower portion, are formed. The lower portion is embedded in an isolation insulating layer disposed over a substrate and the upper portion protrudes the isolation insulating layer. A gate dielectric layer is formed over the upper portion of each of the fin structures. A conductive layer is formed over the gate dielectric layer. A cap layer is formed over the conductive layer. An ion implantation operation is performed on the fin structures with the cap layer. The ion implantation operation is performed multiple times using different implantation angles to introduce ions into one side surface of each of the fin structures.
US11677000B2
An integrated circuit (IC) structure includes an active device over a bulk semiconductor substrate, and an isolation structure around the active device in the bulk semiconductor substrate. The active device includes a semiconductor layer having a center region, a first end region laterally spaced from the center region by a first trench isolation, a second end region laterally spaced from the center region by a second trench isolation, a gate over the center region, and a source/drain region in each of the first and second end regions. The isolation structure includes: a polycrystalline isolation layer under the active device, a third trench isolation around the active device, and a porous semiconductor layer between the first trench isolation and the polycrystalline isolation layer and between the second trench isolation and the polycrystalline isolation layer.
US11676997B2
High voltage semiconductor devices are described herein. An exemplary semiconductor device includes a first doped region and a second doped region disposed in a substrate. The first doped region and the second doped region are oppositely doped and adjacently disposed in the substrate. A first isolation structure and a second isolation structure are disposed over the substrate, such that each are disposed at least partially over the first doped region. The first isolation structure is spaced apart from the second isolation structure. A resistor is disposed over a portion of the first isolation structure and electrically coupled to the first doped region. A field plate disposed over a portion of the second doped region and electrically coupled to the second doped region.
US11676992B2
An inductor module and a method for fabricating the same are disclosed. The inductor module includes a substrate, a first inter-level dielectric layer, a plurality of second inter-level dielectric layers, a trench, and a first metal layer. The first inter-level dielectric layer is disposed on the substrate. The second inter-level dielectric layers are sequentially stacked on the first inter-level dielectric layer. The trench is disposed to penetrate at least two of the second inter-level dielectric layers. The first metal layer is disposed in the trench. The first metal layer has a top side surface and a bottom side surface opposite to each other. The top side surface is coplanar with an upper surface of the trench in the second inter-level dielectric layers. The bottom side surface is coplanar with a bottom surface of the trench in the second inter-level dielectric layers.
US11676975B2
An object of the present invention is to provide a semiconductor device having a novel structure in which in a data storing time, stored data can be stored even when power is not supplied, and there is no limitation on the number of writing. A semiconductor device includes a first transistor including a first source electrode and a first drain electrode; a first channel formation region for which an oxide semiconductor material is used and to which the first source electrode and the first drain electrode are electrically connected; a first gate insulating layer over the first channel formation region; and a first gate electrode over the first gate insulating layer. One of the first source electrode and the first drain electrode of the first transistor and one electrode of a capacitor are electrically connected to each other.
US11676973B2
A display device includes a substrate, a transistor, a first insulating layer, a transfer pad, a second insulating layer, and a pixel electrode. The transistor is disposed on the substrate and includes a drain. The first insulating layer is disposed on the transistor and includes a first contact hole. The transfer pad is disposed on the first insulating layer and contacts the drain through the first contact hole. The transfer pad is filled into a bottom of the first contact hole to form a first contact region. The second insulating layer is disposed on the transfer pad and includes a second contact hole. A bottom of the second contact hole exposes part of the transfer pad to form a second contact region. The pixel electrode is disposed on the second insulating layer and contacts the transfer pad through the second contact hole.
US11676970B2
A panel comprises a substrate; a transistor disposed on the substrate and including: a source electrode, a drain electrode, a gate electrode, a gate insulation layer, an active layer, an auxiliary source electrode configured to electrically connect one end of the active layer to the source electrode, and an auxiliary drain electrode configured to electrically connect an other end of the active layer to the drain electrode; and a capacitor disposed on the substrate and including a first plate and a second plate. The first plate of the capacitor is made of a same material as the auxiliary source electrode and the auxiliary drain electrode.
US11676965B2
Fabrication techniques for NMOS and PMOS nanowires leveraging an isolated process flow for NMOS and PMOS nanowires facilitates independent (decoupled) tuning/variation of the respective geometries (i.e., sizing) and chemical composition of NMOS and PMOS nanowires existing in the same process. These independently tunable degrees of freedom are achieved due to fabrication techniques disclosed herein, which enable the ability to individually adjust the width of NMOS and PMOS nanowires as well as the general composition of the material forming these nanowires independently of one another. In the context of nanowire based semiconductors, in which NMOS and PMOS nanowires are incorporated as channel, drain and source regions respectively for NMOS and PMOS nanowire transistors, independent tuning of the NMOS and PMOS nanowires facilitates independent tuning of short-channel effects, gate drive, the width of the transistor dead space capacitance, strain and other performance related characteristics of associated NMOS and PMOS nanowire transistors.
US11676958B2
A semiconductor device includes: first and second core regions; first and second input/output (I/O) regions coupled to each other and to the first and second core regions; the first and second I/O regions being between an expendable region and correspondingly the first and second core regions; a sealing ring surrounding the core regions and the I/O regions; metallization layers and interconnection layers; inter-communication (inter-com) segments extending between the I/O regions; first and second parapets which extend from the first to third sides of the sealing ring or from first to second locations on corresponding third and fourth parapets, the latter extending from the first to third sides of the sealing ring; the first parapet being between the first core region and the first I/O region; and the second parapet being between the second core region and the second I/O region.
US11676957B2
An integrated circuit (IC) device includes a substrate having opposite first and second sides, an active region over the first side of the substrate, a first conductive pattern over the active region, and a second conductive pattern under the second side of the substrate. The active region includes a first portion and a second portion. The first conductive pattern is electrically coupled to the first portion and the second portion of the active region. The second conductive pattern is electrically coupled to the first portion and the second portion of the active region.
US11676944B2
A method for making a semiconductor device includes forming rims on first and second dice. The rims extend laterally away from the first and second dice. The second die is stacked over the first die, and one or more vias are drilled through the rims after stacking. The semiconductor device includes redistribution layers extending over at least one of the respective first and second dice and the corresponding rims. The one or more vias extend through the corresponding rims, and the one or more vias are in communication with the first and second dice through the rims.
US11676943B2
A semiconductor structure includes a first die, second dies coupled to and on the first die, a dielectric layer on the first die and covering each second die, and through dielectric vias (TDVs) coupled to and on the first die. The first die includes a bonding dielectric layer and bonding features embedded in and leveled with the bonding dielectric layer. An array of second dies is arranged in a first region of the first die. Each second die includes a bonding dielectric layer and a bonding feature embedded in and leveled with the bonding dielectric layer. The bonding dielectric layer and the bonding feature of each second die are respectively bonded to those of the first die. The TDVs are laterally covered by the dielectric layer in a second region of the first die which is connected to the first region and arranged along a periphery of the first die.
US11676941B2
A semiconductor package structure and a method for making a semiconductor package. As non-limiting examples, various aspects of this disclosure provide various semiconductor package structures, and methods for making thereof, that comprise a connect die that routes electrical signals between a plurality of other semiconductor die.
US11676939B2
A package includes a first molding material, a lower-level device die in the first molding material, a dielectric layer over the lower-level device die and the first molding material, and a plurality of redistribution lines extending into the first dielectric layer to electrically couple to the lower-level device die. The package further includes an upper-level device die over the dielectric layer, and a second molding material molding the upper-level device die therein. A bottom surface of a portion of the second molding material contacts a top surface of the first molding material.
US11676926B2
A method for interconnecting two conductors includes creating a first nickel layer on a first conductor of an electrical component, producing a first non-gold protective layer on the first nickel layer, the first non-gold protective layer being configured to prevent the first nickel layer from oxidizing, creating a second nickel layer on a second conductor, producing a second non-gold protective layer on the second nickel layer, the second non-gold protective layer being configured to prevent the second nickel layer from oxidizing, and interconnecting the first and second nickel layers using a solder layer that interfaces with the first and second nickel layers between the first and second conductors.
US11676924B2
Various semiconductor chips and packages are disclosed. In one aspect, an apparatus is provided that includes a semiconductor chip that has a side, and plural conductive pillars on the side. Each of the conductive pillars includes a pillar portion that has an exposed shoulder facing away from the semiconductor chip. The shoulder provides a wetting surface to attract melted solder. The pillar portion has a first lateral dimension at the shoulder. A solder cap is positioned on the pillar portion. The solder cap has a second lateral dimension smaller than the first lateral dimension.
US11676918B2
Disclosed herein are structures, devices, and methods for electrostatic discharge protection (ESDP) in integrated circuits (ICs). For example, in some embodiments, an IC package support may include: a first conductive structure in a dielectric material; a second conductive structure in the dielectric material; and a material in contact with the first conductive structure and the second conductive structure, wherein the material includes a polymer, and the material is different from the dielectric material. The material may act as a dielectric material below a trigger voltage, and as a conductive material above the trigger voltage.
US11676900B2
An electronic assembly that includes a substrate having an upper surface and a bridge that includes an upper surface. The bridge is within a cavity in the upper surface of the substrate. A first electronic component is attached to the upper surface of the bridge and the upper surface of the substrate and a second electronic component is attached to the upper surface of the bridge and the upper surface of the substrate, wherein the bridge electrically connects the first electronic component to the second electronic component.
US11676895B2
A semiconductor device includes a first interlayer dielectric layer disposed over a substrate, metal wirings, a second interlayer dielectric layer disposed over the first interlayer dielectric layer and the metal wirings, a first air gap and a second air gap. The metal wirings are embedded in the first interlayer dielectric layer, and arranged with a first space or a second space between the metal wirings. The second space has a greater length than the first space. The first air gap is formed by the second interlayer dielectric layer and formed in a first area sandwiched by adjacent two metal wirings arranged with the first space. The second air gap is formed by the second interlayer dielectric layer and formed in a second area sandwiched by adjacent two metal wirings arranged with the second space therebetween. No adjacent two metal wirings are arranged with a space smaller than the first space.
US11676888B2
A device including a stack of layers defining a first conductor pattern at a first level of the stack and one or more semiconductor channels in respective regions, connecting a pair of parts of the first conductor pattern, and capacitively coupled via a dielectric to a coupling conductor of a second conductor pattern at a second level of the stack. The stack includes at least two insulator patterns over which the first level or second level conductor patterns is formed. A first insulator pattern occupies one or more semiconductor channel regions to provide the dielectric. The second insulator pattern defines one or more windows in the one or more semiconductor channel regions through which the second conductor pattern contacts the first insulator pattern other than via the second insulator pattern. The second insulator pattern overlaps the first insulator pattern outside the one or more semiconductor channel regions.
US11676882B2
To provide a method of manufacturing power module substrate board at high productivity and a ceramic-copper bonded body in which warps are reduced. In a bonded body-forming step, a circuit layer-forming copper layer consisting of a plurality of first copper layers is formed by arranging and bonding a plurality of first copper boards on a first surface of a ceramic board, and a metal layer-forming copper layer consisting of a second copper layer with a smaller arrangement number than that of the first copper layers is formed by bonding a second copper board having a larger planar area than that of the first copper board and a smaller thickness than that of the first copper board so as to cover at least two of adjacent substrate board-forming areas on a second surface of the ceramic board among the substrate board-forming areas partitioned by the dividing groove.
US11676858B2
Embodiments of the present disclosure generally relate to the fabrication of integrated circuits. More particularly, the implementations described herein provide techniques for deposition of high quality gapfill. Some embodiments utilize chemical vapor deposition, plasma vapor deposition, physical vapor deposition and combinations thereof to deposit the gapfill. The gapfill is of high quality and similar in properties to similarly composed bulk materials.
US11676856B2
A semiconductor device includes a substrate. The semiconductor device further includes a first polysilicon structure over the substrate, wherein the first polysilicon structure has a first grain size. The semiconductor device further includes a first barrier layer over the first polysilicon structure, wherein the first barrier layer has a non-uniform thickness. The semiconductor device further includes a second polysilicon structure over the first barrier layer, wherein the second polysilicon structure has a second grain size smaller than the first grain size.
US11676854B2
A method is presented forming a fully-aligned via (FAV) and airgaps within a semiconductor device. The method includes forming a plurality of copper (Cu) trenches within an insulating layer, forming a plurality of ILD regions over exposed portions of the insulating layer, selectively removing a first section of the ILD regions in an airgap region, and maintaining a second section of the ILD regions in a non-airgap region. The method further includes forming airgaps in the airgap region and forming a via in the non-airgap region contacting a Cu trench of the plurality of Cu trenches.
US11676852B2
Semiconductor devices and methods of forming semiconductor devices are provided. A method includes forming a first mask layer over an underlying layer, patterning the first mask layer to form a first opening, forming a non-conformal film over the first mask layer, wherein a first thickness of the non-conformal film formed on the top surface of the first mask layer is greater than a second thickness of the non-conformal film formed on a sidewall surface of the first mask layer, performing a descum process, wherein the descum process removes a portion of the non-conformal film within the first opening, and etching the underlying layer using the patterned first mask layer and remaining portions of the non-conformal film as an etching mask.
US11676845B2
An automatic teaching system for a substrate processing apparatus, the automatic teaching system comprising a frame having a workpiece load station with a predetermined load station reference location, a robot transport mounted to the frame and having a movable transport arm with an end effector having a predetermined end effector reference location, and a drive section driving the movable transport arm in at least one degree of freedom motion relative to the frame, a machine vision system including both at least one fixed imaging sensor and at least one movable imaging sensor removably connected to the frame and configured to image at least one target of the machine vision system, a load jig disposed for removable engagement with the workpiece load station, with both the at least one fixed imaging sensor and the at least one movable imaging sensor mounted to the load jig, the fixed imaging sensor.
US11676839B2
A method for making an adsorption device includes: providing and etching a substrate to form a plurality of receiving grooves spaced apart from each other; forming a magnetic film in each of the plurality of receiving grooves; and forming a magnet in each of the plurality of receiving grooves. Each receiving groove includes a bottom wall and a side wall coupling the bottom wall. The magnetic film covers the bottom wall and the side wall of each of receiving groove.
US11676833B2
A protective sheeting for use in processing a semiconductor-sized wafer includes a protective film and a cushioning layer attached to a back surface of the protective film. At least in a central area of the protective sheeting, no adhesive is applied to a front surface and a back surface of the protective sheeting, the central area having an outer diameter which is equal to or larger than an outer diameter of the semiconductor-sized wafer. Further, a protective sheeting for use in processing a wafer has a protective film and a cushioning layer attached to a back surface of the protective film, wherein, on an entire front surface and an entire back surface of the protective sheeting, no adhesive is applied. A handling system for a semiconductor-sized wafer and to a combination of a wafer and the protective sheeting are also described.
US11676831B2
A laser irradiation apparatus includes a laser generation device, a levitation unit to levitate an object to which the laser light is applied, and a conveyance unit to convey the levitated object. The conveyance unit includes a holding mechanism for holding the object by absorption, and a moving mechanism for moving the holding mechanism in a conveyance direction. The holding mechanism includes a base including a plurality of through holes, a plurality of pipes respectively connected to the through holes, a vacuum generation device configured to evacuate air from the pipes, and a plurality of absorption assistance valves each disposed in the middle of a respective one of the pipes, each of the plurality of absorption assistance valves being configured to be closed when a flow rate of a gas flowing into the pipe through the through hole becomes equal to or higher than a threshold.
US11676825B2
A semiconductor chip has a first transistor that amplifies a first signal and outputs a second signal, a second transistor that amplifies the second signal and outputs a third signal, and a semiconductor substrate having a main surface parallel to a plane defined by first and second directions and which has the first and second transistors formed thereon. The main surface has thereon a first bump connected to a collector or drain of the first transistor, a second bump connected to an emitter or source of the first transistor, a third bump connected to a collector or drain of the second transistor, and a fourth bump connected to an emitter or source of the second transistor. The first bump is circular, the second through fourth bumps are rectangular or oval, and the area of each of the second through fourth bumps is larger than that of the first bump.
US11676820B2
A method for fabricating a semiconductor device includes: preparing a substrate; forming an isolation layer defining an active region in the substrate; forming a first insulation structure over the substrate, the first insulation structure defining a line-type opening that exposes the isolation layer and the active region; forming a plug pad through a Selective Epitaxial Growth (SEG) process over the exposed active regions; forming a second insulation structure inside the line-type opening, the second insulation structure defining a contact hole landing on the plug pad; and filling the contact hole with a contact plug.
US11676810B2
A semiconductor structure processing method and forming method are provided. The semiconductor structure processing method includes the steps of: providing a semiconductor substrate, which is provided with feature portions having a mask layer on their top surfaces; ashing a semiconductor structure comprising the semiconductor substrate, the feature portions and the mask layer; removing the mask layer; cleaning the semiconductor structure, and forming an oxide layer on surfaces of the feature portions after the feature portions are cleaned; drying the semiconductor structure; and removing the oxide layer. During drying, one feature portion of at least one group of adjacent feature portions is inclined towards a feature portion adjacent thereto, and a distance between the inclined feature portion and the feature portion adjacent thereto after drying is smaller than a distance there between before drying.
US11676809B2
A light emitting sealed body includes: a housing containing light-emitting gas in an internal space and formed with an opening on which first light is incident and/or from which second light is emitted, wherein the first light is laser light for maintaining a plasma generated in the light-emitting gas and the second light is light from the plasma; and a window member that transmits the first light and/or the second light at the opening. The window member is joined to the housing by a joining material consisting of a material containing gold.
US11676808B2
An ion mobility separator comprises an RF-device for transversely confining ions in an ion region using: (a) a first set of electrodes arranged parallel to one another along a direction of ion travel to define a first transverse boundary of the ion region, and that are supplied with a first RF-voltage such that different phases of the first RF-voltage are applied to adjacent electrodes of the first set; and (b) a second set of electrodes arranged parallel to one another along said direction of ion travel to define a second transverse boundary of the ion region, and that are supplied with a second RF-voltage such that different phases of the second RF-voltage are applied to adjacent electrodes of the second set, the first and second transverse boundaries being substantially opposite each other in a transverse direction of the ion region and the first and second RF voltages having different frequencies.
US11676807B2
Presented herein are apparatuses for use in capillary separations. An apparatus includes a coupling that integrates a capillary with a voltage source, a sheath liquid system, a fluid exit port, and a manifold. The coupling may be an elbow connector or equivalent. The manifold receives incident light from an incident light input, and emitted light is collected by a collected light output. The capillary enters the manifold at an input for the capillary, traverses the coupling, and terminates at the fluid exit port, for example an electrospray emitter. The capillary may also enter the manifold at an input for the capillary and terminates inside the manifold.
US11676791B2
A bearing structure for an X-ray tube is provided that includes a journal bearing shaft with a radially protruding thrust bearing encased within a bearing sleeve, one of which rotates relative to the other. The stationary component, e.g., the journal bearing and/or the thrust bearing includes at least one vent groove formed therein that improves the ability of the journal bearing structure to enable gases trapped by the liquid metal within the bearing assembly to escape through the vent groove to the exterior of the X-ray tube. By adding a strategically located channel or vent groove of sufficient size in at least one of the journal bearing or the thrust bearing, the pressures resisted by the seal created between the liquid metal and the vent groove(s) in the bearing components is significantly reduced, allowing escape of the gases to avoid detrimental effects to the operation of the X-ray tube, while maintaining the load carrying capacity of the bearing assembly.
US11676785B2
A gas-insulated switch has a first contact and a second contact. A contact unit is connected to the first contact as a movement contact unit having a drive unit and is movably mounted along a switch axis. The gas-insulated switch further has a multi-part insulation nozzle system with a primary nozzle and an auxiliary nozzle. A heating channel is formed between the primary nozzle and the auxiliary nozzle. The heating channel originates from an electric arc chamber and opens in a gas reservoir, wherein the gas reservoir is delimited by a ram. The gas reservoir is radially delimited by a wall, in respect of the switch axis, which is not a component of the movement contact unit, and the ram is part of the movement contact unit and is movably mounted such that the ram moves along the switch axis away from the second contact to enlarge the gas reservoir.
US11676779B2
What is presented is a key module for a keyboard. The key module comprises a key tappet. The key module also comprises a module housing. The module housing is formed to movably accommodate the key tappet, in order to enable a translational actuation movement of the key tappet between a rest position and in an actuated position relative to the module housing. The key module further comprises a trigger element for triggering an actuation signal of the key module in response to the actuation movement. The trigger element is attached to the key tappet. The trigger element is a contactor for electrically shorting contact pads of a circuit substrate of the keyboard. The trigger element comprises more than two elastically deformable contact fingers for contacting the contact pads after different pre-travel paths in the course of the actuation movement.
US11676777B2
A two terminal arc suppressor for protecting switch, relay or contactor contacts and the like comprises a two terminal module adapted to be attached in parallel with the contacts to be protected and including a circuit for deriving an operating voltage upon the transitioning of the switch, relay or contactor contacts from a closed to an open disposition, the power being rectified and the resulting DC signal used to trigger a power triac switch via an optoisolator circuit whereby arc suppression pulses are generated for short predetermined intervals only at a transition of the mechanical switch, relay or contactor contacts from an closed to an open transition and, again, at an open to a close transition during contact bounce conditions.
US11676775B2
An energy storage apparatus suitable for mounting on a printed circuit board using a solder reflow process is disclosed. In some embodiments, the apparatus includes: a sealed housing body (e.g., a lower body with a lid attached thereto) including a positive internal contact and a negative internal contact (e.g., metallic contact pads) disposed within the body and each respectively in electrical communication with a positive external contact and a negative external contact. Each of the external contacts provide electrical communication to the exterior of the body, and may be disposed on an external surface of the body. An electric double layer capacitor (EDLC) (also referred to herein as an “ultracapacitor” or “supercapacitor”) energy storage cell is disposed within a cavity in the body including a stack of alternating electrode layers and electrically insulating separator layers. An electrolyte is disposed within the cavity and wets the electrode layers. A positive lead electrically connects a first group of one or more of the electrode layers to the positive internal contact; and a negative lead electrically connects a second group of one or more of the electrode layers to the negative internal contact.
US11676774B2
Provided is a solar cell module and a manufacturing method thereof, and a photovoltaic module. The solar cell module includes a substrate; and conductive layers arranged on a surface of the substrate and separated from each other. Solar sub-cells are provided on a surface of the conductive layer. Grooves are provided between adjacent solar sub-cells to separate the solar sub-cells from each other. Each of the solar sub-cells includes a hole transport layer, a perovskite layer and an electron transport layer that are stacked on the surface of the conductive layer. The hole transport layer of each solar sub-cell includes branch electrodes separated from each other. Each of the branch electrodes contacts an interior of the conductive layer. The solar cell module further includes an electrode. The electrode successively passes through the electron transport layer and the perovskite layer and is connected to the branch electrodes.
US11676773B2
In one aspect of the invention, a dye sensitized solar cell has a counter-electrode including carbon-titania nanocomposite thin films made by forming a carbon-based ink; forming a titania (TiO2) solution; blade-coating a mechanical mixture of the carbon-based ink and the titania solution onto a substrate; and annealing the blade-coated substrate at a first temperature for a first period of time to obtain the carbon-based titania nanocomposite thin films. In certain embodiments, the carbon-based titania nanocomposite thin films may include solvent-exfoliated graphene titania (SEG-TiO2) nanocomposite thin films, or single walled carbon nanotube titania (SWCNT-TiO2) nanocomposite thin films.
US11676768B2
Some embodiments include an apparatus having horizontally-spaced bottom electrodes supported by a supporting structure. Leaker device material is directly against the bottom electrodes. Insulative material is over the bottom electrodes, and upper electrodes are over the insulative material. Plate material extends across the upper electrodes and couples the upper electrodes to one another. The plate material is directly against the leaker device material. The leaker device material electrically couples the bottom electrodes to the plate material, and may be configured to discharge at least a portion of excess charge from the bottom electrodes to the plate material. Some embodiments include methods of forming apparatuses which include capacitors having bottom electrodes and top electrodes, with the top electrodes being electrically coupled to one another through a conductive plate. Leaker devices are formed to electrically couple the bottom electrodes to the conductive plate.
US11676764B2
A ceramic electronic component includes a multilayer structure having a substantially rectangular parallelepiped shape and including dielectric layers and internal electrode layers that are alternately stacked, the dielectric layers being mainly composed of ceramic, the internal electrode layers being alternately exposed to two edge faces of the multilayer structure opposite to each other, wherein x/y is 0.143 or less where x represents an average concentration of hydrogen in ppm in a capacitance section where the internal electrode layers exposed to one of the two edge faces and the internal electrode layers exposed to the other of the two edge faces are opposed to each other, as measured by secondary ion mass spectrometry (SIMS), and y represents an average concentration of titanium in ppm in the capacitance section, as measured by SIMS at the same time of measuring the average concentration of hydrogen.
US11676756B2
Provided are a coupled inductor and a power module including the coupled inductor. A coupled inductor includes: a magnetic core, a first winding and a second winding, where a first passage is formed in the magnetic core; a part of the first winding and a part of the second winding pass through the first passage, and the first winding crosses with the second winding outside the first passage. Another coupled inductor includes: a magnetic core, a first winding and a second winding, where the magnetic core has a first passage and a second passage in parallel, both run through the magnetic core from one end face thereof to another opposite end face, where the first winding and the second winding both penetrate the first passage and the second passage, such that differently-named terminals of the windings are located on the same end face of the magnetic core.
US11676747B2
A permanent magnet is expressed by a composition formula: RpFeqMrCusCo100-p-q-r-s. The magnet includes a crystal grain having a main phase including a TbCu7 crystal phase, and a volume ratio of the TbCu7 crystal phase to the main phase is 95% or more.
US11676745B2
A PTC heating element has two insulating layers with a metallic coating provided on one side and a PTC element arranged therebetween. The PTC element is provided on oppositely disposed main side surfaces with a respective metallization which is electrically conductively connected to the coating of one of the insulating layers The metallization provided on one of the main side surfaces is assigned only to one potential for energizing the PTC element, and the metallization provided on the other of the main side surfaces is only assigned to the other potential for energizing the PTC element, as well as an electric heating device containing such a PTC heating element. With regard to better heat decoupling, the insulating layer may be glued to the PTC element, and the coating of the insulating layers is in direct electrically conductive contact with the metallization of the PTC element.
US11676743B2
A film resistor and a thin-film sensor are disclosed. In an embodiment a film resistor includes a piezoresistive layer including a first transition metal carbide.
US11676741B2
A cable assembly is used to connect elements of a computing system. The cable assembly may include a first cable and a connector. The first cable includes an external portion having a first conductor, an electromagnetic (EMC) shielding jacket for the first conductor and a connector disposed at an end of the first conductor. Further, the first cable includes an internal portion comprising a second conductor and a connector disposed on an end of the second conductor. However, the internal portion lacks an EMC shielding jacket for the second conductor. The external portion of the first cable and the internal portion of the first cable form a continuous cable. The connector device comprises a shield area configured to electrically couple with a chassis of a node of a computer system and a retainer configured to physically couple the cable assembly with the chassis. The connector is configured to electrically couple the external portion of the first cable with the chassis, and wherein the external portion of the first cable meets the internal portion of the first cable at the connector device.
US11676736B2
A storage apparatus is provided for dry storage of radioactive nuclear waste. The storage apparatus comprises a sealed canister containing the radioactive nuclear waste and an outer ventilated metal storage overpack (VMSO). The VMSO has a plurality of vents to enable ambient air flow through the VMSO and around the canister to thereby dissipate heat from the canister. The VMSO has a side wall having an inner metal layer and one or more sets of alternating layers. Each set includes a neutron absorbing layer adjacent to another metal layer so that neutron absorbing and metal layers alternate throughout the side wall. The neutron absorbing layer or layers are designed to absorb neutron particles radiated from the radioactive nuclear waste and the metal layers are designed to absorb gamma particles radiated from the radioactive nuclear waste as well as radiated from the neutron absorbing layer or layers that result from reactions associated with absorption of neutron particles.
US11676729B2
The present disclosure provides a monitoring method, a monitoring device and a monitoring server. The monitoring method includes: acquiring physical sign information of a user; determining whether a physical sign of the user is in an abnormal state based on the physical sign information; acquiring first physical symptom information of the user in response to the physical sign of the user being in the abnormal state; and transmitting the physical sign information and the first physical symptom information to a monitoring server to determine a health status of the user.
US11676728B2
A system for calculating one or more health indicators, comprising a body volume calculator arranged to use measurement data to calculate the volume of at least a part of a subject's body and a length measurement of at least a part of a subject; and processing circuitry arranged to receive information, which may be demographic information, about the subject and the body part volume and length measurements; and to perform at least one of: calculating a predicted Visceral Fat value and/or a predicted Total Body Fat value from the demographic information, the body part volume and length measurements using first and second formulae, which may be empirical formulae, respectively; and calculating a Body Volume Indicator (BVI) arranged to provide an indication of health risk, in particular obesity and cardio-metabolic risk, which may be by using a third formula, which again may be an empirical formula.
US11676720B2
A medical information processing apparatus according to an embodiment includes processing circuitry and a hardware display device. The processing circuitry generates a plurality of sets of virtual patient information in each of which patient attribute information, at least one medical action, at least one medical event, and at least one test result are associated with one another; receives a user's operation of selecting one of the sets of virtual patient information; and causes the hardware display device to display the event and the medical action included in the selected piece of virtual patient information in time series. The hardware display device displays, under control of the processing circuitry, the event and the medical action included in the selected piece of virtual patient information in time series.
US11676717B2
According to one embodiment, an apparatus comprising a portable monitoring device to be affixed to a user. The portable monitoring device including: 1) a set of one or more sensors to generate sensor data indicative of physical activity of a user when the portable monitoring device is affixed to the user; and 2) processing circuitry coupled with the set of sensors, to detect that the user has been sedentary for a period of time, and cause the portable monitoring device to alert the user responsive to the detection to encourage the user to move.
US11676715B2
A system and method for collecting whole blood from blood donors includes first and second whole blood collection devices disposed at different blood donation centers. A remote server computer is in communication with the blood collection devices. The whole blood collection devices transfer donation procedure information to the remote server. The remote server computer facilitates retrieval of the donation procedure information at a handheld computing device. The donation procedure information includes data based on product volume collected and data indicating performance of operators of the whole blood collection devices. The handheld computing device displays a number of whole blood units collected. Blood collection can be improved using the donation procedure information.
US11676713B2
A data processing system digitally processes data feeds of inhaler device operation. The data feed represents operation of an inhaler device. The system indexes the live data feed with a key value representing the inhaler device for which the live data feed is obtained. For a particular key value indexed in the in-memory data storage, the system queries, a data feed representing physical operation of an inhaler device, segments the live data feed for that particular key value into a plurality of data samples, process at least a portion of the data samples to classify each of the processed data samples; outputs a prompt specifying whether operation of the inhaler device is within a threshold range of operation. Audio data, temperature data, image data, and ranging data can be processed to classify operation of the inhaler device and the order of operations of the inhaler device.
US11676709B2
A method for a patient to identify and select a health care provider to service the patient's particular need and subsequently schedule an appointment with the health care provider is described. Data regarding the patient and data regarding the provider are used to determine matching physicians to the patient's needs. The patient has the ability to select among matching physicians, rank ordered based on a combination of patient and other criteria, and the patient is offered an average rating for each physician, where the rating is based on reliable reviews of at least other patients.
US11676705B2
Systems and methods for tracking healing progress of multiple adjacent wounds are provided. In one embodiment, a system may include a processor configured to receive a first image of a plurality of adjacent wounds near a form of colorized surface having colored reference elements, determine colors of the plurality of wounds, correct for local illumination conditions, receive a second image of the plurality of wounds near the form of colorized surface, to determine second colors of the plurality of wounds in the second image, match each of the plurality of wounds in the second image to a wound of the plurality of wounds in the first image, and determine an indicator of the healing progress for each of the plurality of wounds based on changes between the first image and the second image.
US11676703B2
Embodiments discussed herein facilitate building and/or employing model(s) for determining tumor prognoses based on a combination of radiomic features and pathomic features. One example embodiment can perform actions comprising: providing, to a first machine learning model, at least one of: one or more intra-tumoral radiomic features associated with a tumor or one or more peri-tumoral radiomic features associated with a peri-tumoral region around the tumor; receiving a first predicted prognosis associated with the tumor from the first machine learning model; providing, to a second machine learning model, one or more pathomic features associated with the tumor; receiving a second predicted prognosis associated with the tumor from the second machine learning model; and generating a combined prognosis associated with the tumor based on the first predicted prognosis and the second predicted prognosis.
US11676699B2
Athletic performance sensing and/or tracking systems include components for measuring or sensing athletic performance data and/or for storing and/or displaying desired information associated with the athletic performance to the user (or others). Such systems can allow users a wide variety of options in creating workouts, selecting and presenting media content during the athletic performance, etc., e.g., to help keep users entertained and motivated. In some instances, user feedback may be used, optionally in combination with objective data relating to a workout, to control features of the workout routine, to control the music or other media content selected and/or presented, and/or to control features of future workout routines and/or the presented media content.
US11676695B2
Athletic performance sensing and/or tracking systems include components for measuring or sensing athletic performance data and/or for storing and/or displaying desired information associated with the athletic performance to the user (or others). Such systems can allow users a wide variety of options in creating workouts, selecting and presenting media content during the athletic performance, etc., e.g., to help keep users entertained and motivated. In some instances, user feedback may be used, optionally in combination with objective data relating to a workout, to control features of the workout routine, to control the music or other media content selected and/or presented, and/or to control features of future workout routines and/or the presented media content.
US11676694B2
Apparatuses and methods for training users of ambulatory medical devices. The methods relate to improving user interactions with the touchscreens of devices. In one embodiment there is an operating mode that records all user interactions along with various device parameters and allows the clinician to review the patient's performance for the initial use period. Automated analysis software may be employed to analyze the data generated by the device. The results of the analysis may be used by the clinician to improve the patient and device interaction.
US11676692B1
A method and system may provide an automated pharmacy processing system which automatically processes an electronic prescription by converting the electronic prescription into a pharmacy prescription record. In this way, an electronic prescription can be filled by a pharmacist without manual data entry. The systems, methods, and apparatuses may generate confirmation and verification requests based on electronic prescription data.
US11676688B1
A method including retrieving an information for a subject, the information comprising a disease of the subject, a subject condition, and a previous condition. The method includes parsing a contract between a provider and a payor to identify a measurable value and identifying a contract success factor and a social determinant for the disease in the subject based on the subject condition, the measurable value, the previous condition, and the contract. The method also includes identifying multiple options available for the provider in a treatment of the disease in the subject. The method also includes identifying an expected condition based on the performance parameter and on the disease of the subject, and providing a recommendation to the provider for an action to improve the expected condition. A system and a non-transitory, computer-readable medium storing instructions to perform the above method are also provided.
US11676682B1
Disclosed herein are methods of determining the sequence and/or positions of modified bases in a nucleic acid sample present in a circular molecule with a nucleic acid insert of known sequence comprising obtaining sequence data of at least two insert-sample units. In some embodiments, the methods comprise obtaining sequence data using circular pair-locked molecules. In some embodiments, the methods comprise calculating scores of sequences of the nucleic acid inserts by comparing the sequences to the known sequence of the nucleic acid insert, and accepting or rejecting repeats of the sequence of the nucleic acid sample according to the scores of one or both of the sequences of the inserts immediately upstream or downstream of the repeats of the sequence of the nucleic acid sample.
US11676678B2
A defect detecting method for a Word Line (WL) driving circuit includes: m WLs correspondingly connected to m different WL driving circuits are selected from a memory cell array and corresponding WL driving circuit arrays to serve as m WLs to be tested, one of which is set as a first WL and the remaining m-1 ones are set as second WLs; first potential is written into memory cells correspondingly connected to the m WLs to be tested; second potential is written into memory cells correspondingly connected to the first WL; real-time potentials of the memory cells connected to respective second WLs are sequentially read, and when difference value between the real-time potential of one target memory cell and the first potential is greater than first pre-set value, it is determined that the WL driving circuit connected to the second WL corresponding to the target memory cell has a defect.
US11676677B2
A magnetic storage device includes a magnetic body including first and second magnetic regions and a magnetic connection region that connects the first and second magnetic regions, and in which a plurality of magnetic domains each storing information by a magnetization direction thereof is formed, a read element that is electrically connected to the magnetic connection region and by which a magnetization direction of one of the magnetic domains is read, and a write element by which a magnetic domain having a magnetization direction is formed in the magnetic body according to information to be stored. The magnetic domains formed in each of the first and second magnetic regions are shifted in a predetermined direction in response to current that flows through the corresponding one of the first and second magnetic regions.
US11676665B2
A memory device includes a memory string and a control circuit coupled to the memory string. The memory string includes a top select gate, word lines, a bottom select gate, and a P-well. The control circuit is configured to, in an erasing operation, apply an erasing voltage to the P-well, apply a verifying voltage to a selected word line of the word lines after applying the erasing voltage to the P-well, and apply a first turn-on voltage to the bottom select gate, starting after applying the erasing voltage to the P-well and before applying the verifying voltage to the selected word line.
US11676664B2
A processing device of a memory sub-system is configured to detect a power on event that is associated with a memory device and indicates that power has been restored to the memory device; estimate a duration of a power off state preceding the power on event associated with the memory device; and update voltage bin assignments of a plurality of blocks associated with the memory device based on the duration of the power off state.
US11676657B2
The present invention provides a pseudo dual-port memory. The pseudo dual-port memory includes a single-port memory, a multiplexer, a timing control circuit and an output circuit. The multiplexer is configured to sequentially output a first address and a second address to the single-port memory. The output circuit is configured to receive output data from the single-port memory to generate a first reading result corresponding to the first address and a second reading result corresponding to the second address. The output circuit includes a first sense amplifier and a second sense amplifier, wherein the first sense amplifier receives the output data to generate first data serving as the first reading result according to a first control signal, and the second sense amplifier receives the output data to generate second data serving as the second reading result according to a second control signal.
US11676649B2
Methods, systems, and devices for sense timing coordination are described. In some systems, to sense the logic states of memory cells, a memory device may generate an activation signal and route the activation signal over a signal line (e.g., a dummy word line) located at a memory array level of the memory device to one or more sense amplifiers. Based on receiving the activation signal, a sense amplifier may latch and determine the logic state of a corresponding memory cell. A first sense amplifier may sense a state of a first memory cell at a first time and a second sense amplifier may sense a state of a second memory cell at a second time in response to the same activation signal due to a propagation delay of the activation signal routed over the signal line (e.g., and corresponding to a propagation delay for activating a word line).
US11676648B2
The disclosed MTJ read circuits include a current steering element coupled to the read path. At a first node of the current steering element, a proportionally larger current is maintained to meet the requirements of a reliable voltage or current sensing. At a second node of the current steering element, a proportionally smaller current is maintained, which passes through the MTJ structure. The current at the first node is proportional to the current at the second node such that sensing the current at the first node infers the current at the second node, which is affected by the MTJ resistance value.
US11676641B2
A memory device includes a first layer, wherein the first layer includes a first memory array, a first row decoder circuit, and a first column sensing circuit. The memory device includes a second layer disposed with respect to the first layer in a vertical direction. The second layer includes a first peripheral circuit operatively coupled to the first memory array, the first row decoder circuit, and the first column sensing circuit. The memory device includes a plurality of interconnect structures extending along the vertical direction. At least a first one of the plurality of interconnect structures operatively couples the second layer to the first layer.
US11676637B2
The magnetic tape cartridge includes a magnetic tape, and a cartridge reel. In the magnetic tape, a minimum winding deviation occurrence load measured after the magnetic tape is rewound around the cartridge reel by applying a tension of 0.40 N in a longitudinal direction of the magnetic tape is 300 N or less.
US11676636B2
Implementations described and claimed herein provide a high-capacity, high-bandwidth scalable storage device. The scalable storage device includes a layer stack including at least one memory layer and at least one optical control layer positioned adjacent to the memory layer. The memory layer includes a plurality of memory cells and the optical control layer is adapted to receive optically-encoded read/write signals and to effect read and write operations to the plurality of memory cells through an electrical interface.
US11676632B2
The present invention relates to a magnetic recording medium including a substrate; an underlayer laminated upon the substrate; and a magnetic layer laminated upon the underlayer, wherein the underlayer includes a first underlayer containing a compound represented by a following general formula: MgO(1-X), where X is within a range of 0.07 to 0.25, the magnetic layer includes a first magnetic layer containing an alloy having a L10 structure, and the alloy having the L10 structure includes B, and the first underlayer is in contact with the first magnetic layer.
US11676625B2
A method for training an endpointer model includes short-form speech utterances and long-form speech utterances. The method also includes providing a short-form speech utterance as input to a shared neural network, the shared neural network configured to learn shared hidden representations suitable for both voice activity detection (VAD) and end-of-query (EOQ) detection. The method also includes generating, using a VAD classifier, a sequence of predicted VAD labels and determining a VAD loss by comparing the sequence of predicted VAD labels to a corresponding sequence of reference VAD labels. The method also includes, generating, using an EOQ classifier, a sequence of predicted EOQ labels and determining an EOQ loss by comparing the sequence of predicted EOQ labels to a corresponding sequence of reference EOQ labels. The method also includes training, using a cross-entropy criterion, the endpointer model based on the VAD loss and the EOQ loss.
US11676612B2
An apparatus comprising means for: receiving values for sub-bands of a frame of an audio signal, the values comprising at least one azimuth value, at least one elevation value and at least one energy ratio value for each sub-band; determining an allocation of first number of bits to encode the values of the frame, wherein the first number of bits are fixed; encoding the at least one energy ratio value for a frame based on a defined allocation of a second number of bits from the first number of bits; encoding the at least one azimuth value and/or at least one elevation value of the frame based on a defined allocation of a third number of bits from the first number of bits, wherein the third number of bits is variably distributed on a sub-band-by-sub-band basis.
US11676606B2
A voice to text model used by a voice-enabled electronic device is dynamically and in a context-sensitive manner updated to facilitate recognition of entities that potentially may be spoken by a user in a voice input directed to the voice-enabled electronic device. The dynamic update to the voice to text model may be performed, for example, based upon processing of a first portion of a voice input, e.g., based upon detection of a particular type of voice action, and may be targeted to facilitate the recognition of entities that may occur in a later portion of the same voice input, e.g., entities that are particularly relevant to one or more parameters associated with a detected type of voice action.
US11676605B2
A method, an apparatus, and a system for speech recognition are provided. a third-party application corresponding to a speech signal of a user can be determined according to the speech signal and by means of semantic analysis; and third-party application registry information is searched for and a third-party program is started, so that the user does not need to tap the third-party application to start the corresponding program, thereby providing more intelligent service for the user and facilitating use for the user.
US11676601B2
According to one embodiment, a system for voice assistant tracking and activation includes a tracking component, a wake component, a listening component, and a link component. The tracking component is configured to track availability of a plurality of voice assistant services. The wake component is configured to determine a plurality of wake words, each plurality of wake words corresponding to a specific voice assistant service of the plurality of voice assistant services. The listening component is configured to receive audio and detect a first wake word of the plurality of wake words that corresponds to a first voice assistant service of the plurality of voice assistant services. The link component is configured to establish a voice link with the first voice assistant service for voice input by the user.
US11676596B2
In an approach to creation and execution of dialog shortcuts, responsive to detecting initiation of a dialog, an utterance is received from a user. Whether the utterance contains an objective of the user is determined, where the objective is chosen from a group including create a shortcut, execute the shortcut, modify the shortcut, and delete the shortcut. Responsive to determining that the utterance contains the objective, the objective is implemented.
US11676587B2
The present disclosure provides a method, an apparatus and a device for implementing a voice application and a computer readable storage medium, which determine a feedback content and a template identifier corresponding to a voice command of a user on a server side, and the determination result is performed by the IoT device. As the Internet information is iteratively updated, the voice command is also updated, the processing function of the voice command can be updated on the server side, so that the voice application in the IoT device does not need to be updated. Therefore, the processing capability of the voice application can be updated without upgrading the voice application itself, thereby alleviating the problem of an excessively long upgrade process due to the OTA upgrade process in the prior art.
US11676583B2
The present invention provides a system for activating personal assistance services. The system includes an audio data collector adapted to collect a sample of speech, a processing module, and a service activator couple to an output device. The processing module further includes an audio feature extractor that extracts a plurality of acoustic features from the sample of speech, and a classification unit that classifies a status of a user from the plurality of acoustic features. The Service activator activates a personal assistance service according to the status of the user classified by the classification unit.
US11676582B2
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for detecting a continued conversation are disclosed. In one aspect, a method includes the actions of receiving first audio data of a first utterance. The actions further include obtaining a first transcription of the first utterance. The actions further include receiving second audio data of a second utterance. The actions further include obtaining a second transcription of the second utterance. The actions further include determining whether the second utterance includes a query directed to a query processing system based on analysis of the second transcription and the first transcription or a response to the first query. The actions further include configuring the data routing component to provide the second transcription of the second utterance to the query processing system as a second query or bypass routing the second transcription.
US11676578B2
There is provided an information processing device including an analysis unit configured to analyze a character string indicating contents of utterance obtained as a result of speech recognition, and a display control unit configured to display the character string indicating the contents of the utterance and an analysis result on a display screen.
US11676572B2
A method for instantaneous learning in text-to-speech (TTS) during dialog includes receiving a user pronunciation of a particular word present in a query spoken by a user. The method also includes receiving a TTS pronunciation of the same particular word that is present in a TTS input where the TTS pronunciation of the particular word is different than the user pronunciation of the particular word. The method also includes obtaining user pronunciation-related features and TTS pronunciation related features associated with the particular word. The method also includes generating a pronunciation decision selecting one of the user pronunciation or the TTS pronunciation of the particular word that is associated with a highest confidence. The method also include providing the TTS audio that includes a synthesized speech representation of the response to the query using the user pronunciation or the TTS pronunciation for the particular word.
US11676570B2
A noise cancellation system for cancelling sounds within a vehicle. The noise cancellation system includes microphones, a camera, a controller, and speakers. The microphones are disposed adjacent to occupant locations, and configured to generate microphone signals representative of noise sounds and cancellation audio sounds. The camera is configured to generate a video signal that captures head configurations of the occupants. The controller is configured to receive rotor control signals, calculate hearing locations based on tracking data of the head configurations of the occupants, and generate a speaker signals based on the hearing locations, the microphone signals, and the rotor control signals. The speakers are configured to generate the cancellation audio sounds. The cancellation audio sounds attenuate the noise sounds.
US11676569B2
A sound production device includes memories, processors, a rotation speed correlation value acquisition device configured to acquire a rotation speed correlation value of a rotating body, and a speaker. A noise order sound has a characteristic in which a sound pressure of the noise order sound reaches a maximum sound pressure in a first range of the rotation speed correlation value, and the sound pressure becomes smaller than the maximum sound pressure in second ranges adjacent to both sides the first range. When the rotation speed correlation value falls within the first range, the processors do not output a dummy noise. When the rotation speed correlation value falls within either of the second ranges, the processors output the dummy noise.
US11676566B2
A musical instrument includes a hollow and compressible body made of a flexible and elastic material, delimiting an internal cavity divided into two chambers by an internal wall through which a musical insert is mounted. The body is closed in a sealed manner such that the two chambers are hermetic and communicate only via the musical insert. Said musical insert is designed to emit a sound when passed through by an air flow generated by a mechanical pressure exerted on said body at the level of one of the chambers, which pushes some of the air volume from this chamber into the other chamber through said musical insert. Thus, this musical instrument is said to be “clean” because it does not need to communicate with the external environment in order to generate a sound, and is perfectly safe.
US11676556B2
A method and light-emitting diode (LED) device configured to compensate for crosstalk between rows of the LED device.
US11676545B2
A display device includes a display panel on which a plurality of sub-pixels are disposed; a timing controller configured to transmit an image control signal to a host system to receive image data from the host system; a data driving circuit configured to convert the image data transmitted from the timing controller into a data voltage and configured to supply the data voltage to the display panel; and a semi-off switching circuit configured to control the image control signal so that the image data is cut off from the host system during a semi-off period of a predetermined time from a time when an off monitoring signal is transmitted from the host system in response to the power off signal.
US11676544B2
An organic light emitting diode display including: a data wiring that includes a main data line disposed in a display area and a first data line disposed in a peripheral area; a driving voltage wiring that includes a main driving voltage line disposed in the display area and a first driving voltage line that is connected with the main driving voltage line and disposed in the peripheral area while extending in a first direction; and a driving low-voltage wiring that includes a cathode extending to the peripheral area while overlapping the display area, and a plurality of first driving low-voltage connection portions that are connected with the cathode and disposed in the peripheral area, wherein each of the plurality of first driving low-voltage connection portions comprises a wiring portion extended in the first direction and a pad portion electrically connected with the wiring portion.
US11676539B2
A driving transistor is configured to control driving current for the light-emitting element. A first capacitive element and a second capacitive element are connected in series between a gate and a source of the driving transistor. A first switching transistor is configured to switch connection/disconnection between a data line and an intermediate node located between the first capacitive element and the second capacitive element. A second switching transistor is configured to switch connection/disconnection between the gate and a drain of the driving transistor. A third switching transistor is configured to switch connection/disconnection between the intermediate node and a reference power line. A fourth switching transistor is configured to switch supply/non-supply of driving current from the driving transistor to the light-emitting element. A fifth switching transistor is configured to switch connection/disconnection between an anode of the light-emitting element and a reset power line.
US11676528B2
Provided is an electroluminescent display device. The electroluminescent display device includes a pixel circuit implemented with a plurality of transistors, and a gate driving circuit that provides a scan signal, an initialization signal, and an emission signal to the pixel circuit. The gate driving circuit includes a scan signal generating circuit that provides the scan signal to a gate electrode of at least one of the plurality of transistors, an initialization signal generating circuit that provides the initialization signal to a source electrode or a drain electrode of at least one of the plurality of transistors, and the emission signal generating circuit that provides an emission signal to the gate electrode of at least one of the plurality of transistors. The initialization signal generating circuit receives an output signal of the scan signal generating circuit and an output signal of the emission signal generating circuit.
US11676526B2
Methods for verifying and improving angular color shift impact factors are provided. Experiments have verified that angular color shift can be effectively improved by downgrading gray levels of red and green subpixels, while downgrading gray levels of blue subpixels may deteriorate the angular color shift.
US11676514B2
An embodiment includes a system comprising: an artery, a vein, and a nerve; a first length of tubing adjacent at least one of the vein, artery, and nerve; a second length of tubing to couple to the first length of tubing; and a pump comprising a number of actuators; wherein when the system when operating is configured such that (b)(i) the second length of tubing couples to at least one of the number of actuators, (b)(ii) ends of the first and second lengths of tubing are closed, (b)(iii) a second end of the first length of tubing is operatively coupled to a second end of the second length of tubing, (b)(v) the pump pulsates fluid within the first length of tubing in response to the number of actuators intermittently contacting the second length of tubing.
US11676513B2
Methods for providing real-time, three-dimensional (3D) augmented reality (AR) feedback guidance to a user of an equipment system to achieve improved diagnostic or treatment outcomes, including comparing sensed, real-time user positioning data and data received from the equipment system during use to reference positioning and procedure outcome data, and generating and providing to a user real-time position-based and outcome-based 3D AR feedback based on comparing the sensed and reference data.
US11676506B1
A cognitive training method having a processor to store exercise category data which has a number of task data, each of the task data including levels of difficulty. There is included a visual display and an audio transducer and a user interfaces actuated to accept user data in response to a selected task. The user data is sent from the user interface to the processor and the processor stores and evaluates the user input data and based upon evaluation of the user input data, adjusts a subsequent level of difficulty associated with a selected task. If user input data is above a correct data threshold, the level of difficulty may be adjusted responsive to an evaluation of the user input data. Values of training parameters are adjusted at least partially in accordance with stored user parameters, and there is transmitted to the user interface and to the user adjusted values of exercise and training parameters where at least one training task is selected to include a cue stimulus, a probe stimulus, and a distractor stimulus. A task difficulty is adjusted by selectively adjusting the task difficulty of the cue stimulus difficulty, the difficulty of the probe stimulus, and difficulty of the distractor stimulus.
US11676491B2
A communication device for a platooning vehicle is provided and includes a communication circuit; a memory; and a control circuit electrically connected with the communication circuit and the memory. The control circuit transmits, via the communication circuit, platooning information to another platooning vehicle in the platooning group when platooning is initiated and receives, via the communication circuit, information from an outside vehicle that is not part of the platooning group, the information including identification information of the outside vehicle. The information from the outside vehicle is processed when the identification information of the outside vehicle matches identification information of the other platooning vehicle, the identification information of the other platooning vehicle previously stored in a memory of the other platooning vehicle. The information receiving from the outside vehicle is stopped when the identification information of the outside vehicle does not match the identification information of the other platooning vehicle.
US11676486B2
A user-controlled portable traffic control system comprises one or more traffic signal units and a wireless handheld remote-control unit. Each traffic signal unit provides instruction to approaching motorists via a segmented backlit display consisting of first and second message panels. The wireless handheld remote-control unit allows a user to communicate commands to the traffic signal units via a transceiver circuit. Additionally, the handheld remote-control unit includes an interface indicating system status information via a plurality of indicator lights corresponding to the traffic signal units. Each traffic signal unit is housed in a two-part collapsible rigid outer case with a mounting handle allowing for ease of transport and a versatile means of both mounting and transporting the system.
US11676481B2
A system and method for enabling set up of a controlling device capable of controlling a plurality of appliances, via an interactive instruction set and associated programming. The programming is accessible by a STB or other controllable appliance and is configured to appropriately display interactive instructions and prompts to a user during a user initiated set up procedure for configuration of another controllable device (e.g., DVD, VCR, DVR, etc) available to the user.
US11676478B2
Methods are disclosed that, in some aspects, provide for the determination of alarm events or non-alarm events based on data received from various sensors monitoring one or more entry points of a premises. Non-alarm events may, for example, include a seismic event or a knock event. Determining whether the data received from the various sensors is an alarm or non-alarm event may be based on data received from two or more sensors monitoring two or more entry points of the premises. Further, data related to the non-alarm event that occurred at the premise may be compared to data related to non-alarm events that occurred at other premises and, based on the comparison, one or more authorities may be alerted to the non-alarm event.
US11676475B2
A tracking system determines if a tracking device is located within a safe zone based on whether a set of safe conditions are satisfied. The set of safe conditions includes a geographic boundary or a geographic location and corresponding threshold distance. The set of safe conditions can also include a time window during which a safe zone is active. When a tracking device is within a safe zone (e.g., geographically and temporally), the tracking device is determined to be safe, and notifications associated with the tracking device can be minimized. The safe zones may be user-selected, user-defined, or determined based on data analytics. If a set of safe conditions are not satisfied, the tracking system generates and sends a notification to the user of the tracking device indicating that the tracking device may be lost.
US11676468B2
In some examples, a system includes: an article of personal protective equipment (PPE) that includes a communication component; a computing device communicatively coupled to the article of PPE, wherein the computing device: receives context data that is based on one or more of the article of PPE, a work environment for the article of PPE, or a worker assigned to the article of PPE; selects, based at least in part on the context data, a set of programmable safety rules that are contextually associated with the at least one article of PPE; sends the programmable safety rules to one or more of the article of PPE or a data hub communicatively coupled to the article of PPE; and wherein the programmable safety rules are configured at the article of PPE or the data hub to perform one or more operations based at least in part on PPE data.
US11676460B1
Cash trapping at an Automated Teller Machine (ATM) is detected in real time. One or more images from one or more cameras are analyzed. The camera(s) is/are focused overhead of the ATM or on a cash slot of a dispense module for the ATM. The images are analyzed for determining one or more of whether the dispenser module is authentic, whether the cash slot opened or did not open when it should have opened for a cash withdraw, whether visual features of the dispense module have changed over a configurable period of time, and whether hands, gestures, and actions of a person present at the ATM indicate that cash trapping is taking place at the ATM. When cash trapping is detected at the ATM a variety of automated actions are processed, such as shutting down the dispense module, shutting down the ATM, notifying a financial institution, and/or notifying legal authorities.
US11676458B2
The present disclosure relates to a money handling apparatus including: a money storage unit configured to store money; a locking unit configured to limit access to the money storage unit; and a control unit configured to give unlock permission to unlock the locking unit to at least one of a plurality of qualified persons who are qualified to unlock the locking unit, and to perform a process involving change of the qualified person.
US11676456B2
Certain embodiments involve a system comprising at least one processor; and a memory storing instructions which when executed by the at least one processor cause the at least one processor to: cause a first symbol array to be selected and displayed on at least one display in a display area, the first symbol array including a plurality of selected symbols from each reel of a plurality of reels at respective symbol locations of the display area; add at least one first Wild symbol to the display; cause a second symbol array to be selected and displayed on the at least one display in the display area, the second symbol array including a plurality of selected symbols from each reel at the respective symbol locations of the display area; add at least one second Wild symbol to the display; and move the at least one first Wild symbol relative to the display area.
US11676455B2
A described gaming system implements an arrangement wherein, as part of a first base game instance, a gaming device is caused to include, at a first symbol position of a symbol array to be implemented by a gaming device, a first Wild symbol at a first symbol position on a reel of a plurality of reels; and, as part of a second base game instance following the first game instance, a modification of the reel of the plurality of reels is performed to move the first Wild symbol into a second symbol position different than the first symbol position.
US11676446B2
A system includes a smart table for providing a wagering game to one or more players. The smart table includes a table management device operable by a dealer, and the smart table defines a plurality of player positions. The system also includes a processor configured to open a wagering window. The wagering window defines a period of time during which at least one primary player is enabled to place a primary wager and during which at least one secondary player is enabled to place a secondary wager. The instructions also cause the processor to close the wagering window in response to expiration of the period of time, and resolve the primary wager for the primary player and the secondary wager for the secondary player in response to closing the wagering window and based upon an outcome of the wagering game.
US11676442B2
A game device of the present invention has a defining part for defining an opening to allow a prize to fall, an operation part for receiving input information, a prize support member for supporting the prize, wherein the prize support member is configured to be operable by that the operation part receives the input information, and an operation control unit for controlling movement of the prize support member. The prize support member is provided above the opening so as to expose the opening. This makes it possible to provide a game device which is capable of effectively utilizing a space inside a housing and having enhanced amusement.
US11676438B2
A charger for an electronic nicotine delivery systems (“ENDS”) device, which may include aerosol delivery devices provides functionality for authentication, including age verification. Such devices may be restricted based on age or other factors that require some form of authentication, verification, and/or identification to satisfy the restriction. The accessory or charger may provide or connect with a verification system for confirming an age of a user. If the authentication or verification is not satisfied, the charger or accessory will not charge the device, rendering it unusable.
US11676436B2
Methods, systems and apparatuses are provided for managing a parking facility. A host processor may receive identification information relating to a vehicle entering, exiting and/or parked in the parking facility. The host processor may determine an account associated with the vehicle, based on the identification information and on account information associated with the account. The host processor may determine that the vehicle is authorized to park in the parking facility, based on the account information. And host processor transmits permission information to a user device to thereby allow the vehicle to enter, exit and/or remain parked in the parking facility.
US11676435B2
The present disclosure relates to systems and methods for communicating between devices using short-range communication links. More specifically, the present disclosure relates to systems and methods for communicating access-right data between devices for verification or transfer.
US11676432B2
An electronic device includes a memory circuitry, an interface circuitry, and a processor circuitry. The processor circuitry is configured to determine prioritization data associated with the one or more access control devices. The processor circuitry is configured to control, based on the prioritization data, at least one of the one or more access control devices.
US11676429B2
A computer can be programmed to determine that an impact to a wheel of a vehicle exceeds an impact severity threshold and transmit a message describing the impact via a vehicle communications network. An electronic controller can be programmed to make an adjustment to monitoring the component based on receiving the message in the electronic controller.
US11676427B2
The disclosure describes embodiments for modifying a vehicle component of an ego vehicle based on ranging and misbehavior information determined from digital data included in a Vehicle-to-Everything (V2X) message. In some embodiments, a method includes generating Received Signal Strength (RSS) data describing an RSS value for the V2X message which is originated by a remote vehicle. The method includes determining range data corresponding to the RSS value describing a first range from the ego vehicle to the remote vehicle. The method includes determining that the remote vehicle is providing inaccurate sensor data (an example of misbehavior information) by comparing the first range to a second range which is described by the sensor data which is extracted from the V2X message. The method includes modifying an operation of the vehicle component so that the vehicle component does not consider the sensor data that is provided by the remote vehicle.
US11676423B1
Some disclosed methods involve maintaining a data structure that includes historical fingerprint location data. The historical fingerprint location data may include information corresponding to prior instances of fingerprint image data obtained from each of a plurality of fingerprint sensor areas. Some such methods involve identifying, based at least in part on the historical fingerprint location data, a selected fingerprint sensor area, providing a user prompt to place a digit within or on the selected fingerprint sensor area, and obtaining current fingerprint image data of the digit from the selected fingerprint sensor area. In some examples, the historical fingerprint location data indicate a number of prior instances during which prior fingerprint image data has been obtained from each fingerprint sensor area of the plurality of fingerprint sensor areas. In some such examples, the identifying is based, at least in part, on the number of prior instances.
US11676418B1
A method includes generating a first representative vector based on a first vectors, wherein the first representative vector is associated with the first vectors in a collection of representative vectors, and the first vectors comprises a set of vector values within a latent space. The method further includes generating a second representative vector based on a second vectors, wherein the second representative vector is associated with the second vectors in the collection of representative vectors. The method further includes determining a latent space distance based on the first and second vectors. The method further includes determining whether the latent space distance satisfies a threshold. In response to a determination that the latent space distance satisfies the threshold, the method further includes associating a combined representative vector with the first vectors and the second vectors and removing the first and second representative vectors from the collection of representative vectors.
US11676412B2
Systems, devices, and methods are presented for segmenting an image of a video stream with a client device by receiving one or more images depicting an object of interest and determining pixels within the one or more images corresponding to the object of interest. The systems, devices, and methods identify a position of a portion of the object of interest and determine a direction for the portion of the object of interest. Based on the direction of the portion of the object of interest, a histogram threshold is dynamically modified for identifying pixels as corresponding to the portion of the object of interest. The portion of the object of interest is replaced with a graphical interface element aligned with the direction of the portion of the object of interest.
US11676404B2
A vehicular driver monitoring system includes an electronic control unit (ECU), memory that stores driver information, and a driver monitoring camera viewing a head of a driver present in the vehicle. When the driver is present in the vehicle, and via processing at the ECU of image data captured by the driver monitoring camera and provided to the ECU, the system recognizes the driver present in the vehicle as being one of the at least one potential driver of the vehicle having driver information stored in the memory, and the vehicular driver monitoring system accesses the driver information that is associated with the driver. Responsive to determination by the vehicular driver monitoring system that a geographical location of the accessed stored driver information corresponds to a current geographical location of the vehicle, the system generates an output for the driver that corresponds to the current geographical location of the vehicle.
US11676395B2
Automated capture of image data for points of interest may be implemented for points of interest in an environment external to a vehicle. Sensors implemented as part of a vehicle may collect sensor data for an environment. Processing of the sensor data may be performed to detect points of interest in the environment. In response to detecting a point of interest, image data may be captured by one or more of the sensors implemented at the vehicle. Different types of image data may be captured, such as panoramic images and three-dimensional reconstructions of a scene. Metadata may be generated for captured image data which may describe the point of interest that is captured by the image data. The image data and the metadata may be stored locally at the vehicle or to a remote data store. The image data may also be shared with other computing devices.
US11676394B2
A processing unit recognizes an object based on image data. An object recognition unit identifies the object based on the image data. A conversion unit is configured as a neural network provided as an upstream stage of the object recognition unit. The conversion unit converts a first image IMG acquired by the camera into a second image, and inputs the second image to the object recognition unit.
US11676393B2
A method and server for training a machine-learning algorithm (MLA) to detect objects in sensor data acquired by a second sensor mounted on a second vehicle located at a second distance from the objects, the MLA having been trained to detect the objects in sensor data acquired by a first sensor mounted on a first vehicle located at a first distance from the objects. First sensor data acquired by the first sensor on the first vehicle is aligned with second sensor data acquired by the second sensor on the second vehicle. The MLA determines objects and objects classes in the aligned first sensor data. The object classes in the aligned first sensor data are assigned to corresponding portions in the aligned second sensor data. The MLA is trained on the labelled portions in the aligned second sensor data to recognize and classify objects at the second distance.
US11676390B2
Methods and systems for fully-automatic image processing to detect and remove unwanted people from a digital image of a photograph. The system includes the following modules: 1) Deep neural network (DNN)-based module for object segmentation and head pose estimation; 2) classification (or grouping) of wanted versus unwanted people based on information collected in the first module; 3) image inpainting of the unwanted people in the digital image. The classification module can be rules-based in an example. In an example, the DNN-based module generates, from the digital image: 1. A list of object category labels, 2. A list of object scores, 3. A list of binary masks, 4. A list of object bounding boxes, 5. A list of crowd instances, 6. A list of human head bounding boxes, and 7. A list of head poses (e.g., yaws, pitches, and rolls).
US11676388B2
An object tracking apparatus, method and computer-readable medium for detecting an object from output information of sensors, tracking the object on a basis of a plurality of detection results, generating tracking information of the object represented in a common coordinate system, outputting the tracking information, and detecting the object on a basis of the tracking information.
US11676374B1
A system first registers a two-dimensional image to targetable three-dimensional data. A user or automated process selects image coordinates of a target within the registered two-dimensional image. The system intersects the image coordinates of the target with the targetable three-dimensional data, thereby generating geodetic coordinates of the target in a point cloud. Error estimates for the geodetic coordinates of the target are generated, and the system stores the geodetic coordinates and associated error of the target in a database for use in downstream exploitation.
US11676367B1
Described a system for anomaly detection using anomaly cueing. In operation, an input image having two-dimensional (2D) image mixtures of primary components is reformatted into one-dimensional (1D) input signals. Blind source signal separation is used to separate the 1D input signals into separate output primary components, which are 1D output signals. The 1D output signals are reformatted into 2D spatially independent component output images. The system then calculates all possible pair product images of the 2D spatially independent component output images and corresponding signal-to-noise ratios. A pair product image is selected based on the peak signal-to-noise ratio and thresholded to identify anomalies in the pair product image. Several types of devices can then be controlled based on the identified anomalies in the pair product image.
US11676362B2
According to one embodiment, a training system includes a first generator, a second generator, a third generator, and a trainer. The first generator uses a human body model to generate a first image. The human body model models a human body and is three-dimensional and virtual. The second generator generates a teacher image by annotating body parts of the human body model in the first image. The third generator generates a second image including noise by performing, on the first image, at least one selected from first processing, second processing, third processing, fourth processing, or fifth processing. The trainer uses the second image and the teacher image to train a first model.
US11676349B2
The technology disclosed can provide capabilities to view and/or interact with the real world to the user of a wearable (or portable) device using a sensor configured to capture motion and/or determining the path of an object based on imaging, acoustic or vibrational waves. Implementations can enable improved user experience, greater safety, greater functionality to users of virtual reality for machine control and/or machine communications applications using wearable (or portable) devices, e.g., head mounted devices (HMDs), wearable goggles, watch computers, smartphones, and so forth, or mobile devices, e.g., autonomous and semi-autonomous robots, factory floor material handling systems, autonomous mass-transit vehicles, automobiles (human or machine driven), and so forth, equipped with suitable sensors and processors employing optical, audio or vibrational detection.
US11676344B2
Techniques are described for using computing devices to perform automated operations related to providing visual information of multiple types in an integrated manner about a building or other defined area. The techniques may include generating and presenting a GUI (graphical user interface) on a client device that includes a computer model of the building's interior with one or more first types of information (e.g., in a first pane of the GUI), and simultaneously presenting other types of related information about the building interior (e.g., in additional separate GUI pane(s)) that is coordinated with the first type(s) of information being currently displayed. The computer model may be a 3D (three-dimensional) or 2.5D representation generated after the house is built and showing the actual house's interior (e.g., walls, furniture, etc.), and may be displayed to a user of a client computing device in a displayed GUI with various user-selectable controls.
US11676343B1
The following relates generally to light detection and ranging (LIDAR) and artificial intelligence (AI). In some embodiments, a system: receives LIDAR data generated from a LIDAR camera; measures plurality of dimensions of the home based upon processor analysis of the LIDAR data; builds a 3D model of the home based upon the measured plurality of dimensions; and displays a representation of the 3D model by visually navigating through the 3D model.
US11676338B2
Systems, methods and apparatus are provided through which a 3D source mesh object is generated by a three-dimensional-augmented-reality engine from medical data, a copy mesh object is generated by copying the 3D source mesh object, a center of the 3D source mesh object is calculated from the 3D source mesh object, an orientation bar is generated and placed orthogonally in the center of the copy mesh object, a scene mesh object a generated by scanning the room, the scene mesh object being a game object, a patient mesh object is generated by cutting the scene mesh object in reference to original dimensions of the 3D source mesh object and a patient mesh object is generated from the patient mesh object by starting from the index tip of a finger and placing the 3D source mesh object in a direction that is downward.
US11676332B2
Techniques for generating an ensemble image are disclosed. In some embodiments, images associated with a plurality of independent scenes are translated to a prescribed origin, translated images associated with each independent scene are transformed into a prescribed perspective; and pixels of an image array having the prescribed perspective that is associated with each independent scene is populated with corresponding pixels from the transformed translated images associated with that independent scene. An ensemble image comprising the prescribed perspective is at least in part generated by combining at least some pixels of image arrays associated with the plurality of independent scenes.
US11676331B2
There is provided an information processing apparatus and an information processing method that can enhance the image quality while, at the same time, reducing increase in client's throughput. Image data of a plurality of projection directions is generated by projecting 3D data in a plurality of projection directions and converting the 3D data into two-dimensional data, and projection direction information indicating the projection direction of each piece of the image data is generated as projection metadata. Further, the projection direction information includes additional projection direction identification information that indicates that the image data has been generated by projection in additional projection directions. The present technology is applicable, for example, to a data generation apparatus that generates data for delivering a point cloud.
US11676326B2
One embodiment of a method for computing a texture color includes tracing a ray cone through a graphics scene, determining at least one axis of an ellipse formed by the ray cone intersecting a plane associated with geometry within the graphics scene at a hit point, computing one or more gradients along the at least one axis of the ellipse, and computing a texture color based on the one or more gradients and a texture.
US11676323B2
Methods of rendering a scene in a graphics system identify a draw call within a current render and analyse the last shader in the series of shaders used by the draw call to identify any buffers that are sampled by the last shader and that are to be written by a previous render that has not yet been sent for execution on the GPU. If any such buffers are identified, further analysis is performed to determine whether the last shader samples from the identified buffers using screen space coordinates that correspond to a current fragment location and if this determination is positive, the draw call is added to data relating to the previous render and the last shader is recompiled to replace an instruction that reads data from an identified buffer with an instruction that reads data from an on-chip register.
US11676322B2
One embodiment provides for a graphics processor comprising a block of graphics compute units, a graphics processor pipeline coupled to the block of graphics compute units, and a programmable neural network unit including one or more neural network hardware blocks. The programmable neural network unit is coupled with the block of graphics compute units and the graphics processor pipeline. The one or more neural network hardware blocks include hardware to perform neural network operations and activation operations for a layer of a neural network. The programmable neural network unit can configure settings of one or more hardware blocks within the graphics processor pipeline based on a machine learning model trained to optimize performance of a set of workloads.
US11676302B2
A system for determining the gaze endpoint of a subject, the system comprising: a eye tracking unit adapted to determine the gaze direction of one or more eyes of the subject; a head tracking unit adapted to determine the position comprising location and orientation of the eye tracker with respect to a reference coordinate system; a 3D Structure representation unit, that uses the 3D structure and position of objects of the scene in the reference coordinate system to provide a 3D structure representation of the scene; based on the gaze direction, the eye tracker position and the 3D structure representation, calculating the gaze endpoint on an object of the 3D structure representation of the scene or determining the object itself.
US11676299B2
A system that includes a computer and an unmanned aerial vehicle (UAV) is described. The computer may be programmed to receive, from the UAV, image data of a vehicle parking region; to process the data by identifying an actuation of a UAV indicator that occurs within a predetermined interval of a response of a vehicle in the region; and based on the identification, to determine a location of the vehicle.
US11676297B2
While a viewer is viewing a first stereoscopic image comprising a first left image and a first right image, a left vergence angle of a left eye of a viewer and a right vergence angle of a right eye of the viewer are determined. A virtual object depth is determined based at least in part on (i) the left vergence angle of the left eye of the viewer and (ii) the right vergence angle of the right eye of the viewer. A second stereoscopic image comprising a second left image and a second right image for the viewer is rendered on one or more image displays. The second stereoscopic image is subsequent to the first stereoscopic image. The second stereoscopic image is projected from the one or more image displays to a virtual object plane at the virtual object depth.
US11676290B2
A method is provided to ensure continuity of features through spatially partitioned maps. Methods may include: identifying a map element extending from a first map tile to a second map tile; determining a first set of continuous features of the map element in the first map tile; determining a second set of continuous features of the map element in the second map tile; identifying a first set of locations in a plane separating the first map tile from the second map tile where the first set of continuous features intersect the plane; identifying a second set of locations where the second set of continuous features intersect the plane; correlating the first set of continuous features with the second set of continuous features; blending the first and second set of continuous features; and updating map data including the first map tile and the second map tile with a blended map element.
US11676286B2
Information management apparatus, information management method, and non-transitory recording medium
An information management apparatus includes at least one processor configured to execute a program stored in a storage. The at least one processor acquires sequentially captured frames. The at least one processor acquires a movement state of a position of a light source in an imaging area, based on light source images contained in the acquired frames. The light source transmits information by means of light including an illumination pattern of the light. The at least one processor causes the storage to store the information and the movement state in association with each other.
US11676282B2
Enhanced methods and systems for the semantic segmentation of images are described. A refined segmentation mask for a specified object visually depicted in a source image is generated based on a coarse and/or raw segmentation mask. The refined segmentation mask is generated via a refinement process applied to the coarse segmentation mask. The refinement process correct at least a portion of both type I and type II errors, as well as refine boundaries of the specified object, associated with the coarse segmentation mask. Thus, the refined segmentation mask provides a more accurate segmentation of the object than the coarse segmentation mask. A segmentation refinement model is employed to generate the refined segmentation mask based on the coarse segmentation mask. That is, the segmentation model is employed to refine the coarse segmentation mask to generate more accurate segmentations of the object. The refinement process is an iterative refinement process carried out via a trained neural network.
US11676276B2
Systems and methods for obtaining diagnostic data of a target are disclosed. The systems include an imaging device and a drape. The imaging device includes at least one excitation light source for fluorescent imaging, and an optical sensor configured to detect signals responsive to illumination of the target with the excitation light. The drape is configured to reduce ambient light surrounding the target during imaging.
US11676263B2
An extreme ultraviolet (EUV) collector inspection apparatus and method capable of precisely inspecting a contamination state of an EUV collector and EUV reflectance in accordance with the contamination state are provided. The EUV collector inspection apparatus includes a light source arranged in front of an EUV collector to be inspected and configured to output light in a visible light (VIS) band from UV rays, an optical device configured to output narrowband light from the light, and a camera configured to perform imaging from an UV band to a VIS band. An image by wavelength of the EUV collector is obtained by using the optical device and the camera and a contamination state of the EUV collector is inspected.
US11676257B2
Embodiments of the present disclosure provide a method and a device for detecting defect of a meal box, a server, a device, and a storage medium. The method includes: receiving a detection request including an image of the meal box sent by a user terminal, the image of the meal box being obtained by an image acquirer of the user terminal; and performing defect recognition based on the image of the meal box and a defect detection model in response to the detection request.
US11676255B2
Generating a correction algorithm includes obtaining a model of an eye, the model including a front portion with optics to mimic a cornea and a lens of a human eye, and a rear portion having a generally hemispherical-shaped body to mimic a retina of the human eye. The rear portion includes physical reference lines on an inside surface of the generally hemispherical-shaped body. Images of the model are captured using an image capturing device aimed at the model. Vertices of the physical reference lines are identified according to a given projection technique for displaying generally hemispherical-shaped body in a two-dimensional image in the captured images. Idealized placement of the vertices of the physical reference lines is obtained according to the given projection technique. The result is a correction algorithm used to adjust any pixel of an image of an actual eye in the x-axis and in the y-axis.
US11676246B2
An artificial intelligence (AI) decoding apparatus includes a memory storing one or more instructions, and a processor configured to execute the stored one or more instructions to obtain image data corresponding to a first image that is downscaled from an original image by using first parameters of a first filter kernel included in a first deep neural network (DNN), reconstruct a second image corresponding to the first image, based on the obtained image data, and obtain a third image that is upscaled from the reconstructed second image, by performing an operation between the reconstructed second image and second parameters of a second filter kernel included in a second DNN corresponding to the first DNN. Each of the second parameters is represented by a product of a scale factor and one among integer values, and each of the integer values is 0 or ±2n, where n is an integer.
US11676242B2
Provided is an image analysis unit that receives an image to be a down-conversion processing target as an input and generate adjacent pixel difference information used to select a pixel to be output to a down-converted image, and an output image generation unit that selects a pixel pair to be an adjacent pixel used for the down-converted image on the basis of the adjacent pixel difference information and generate the down-converted image by executing an adjustment of the selected pixel pair. The image analysis unit calculates a difference of an adjacent pixel pair of a processing block constituent pixel, generates a sorting result of arranging the differences in descending order, and the output image generation unit selects the pixel pair to be used for the down-converted image in descending order of difference values on the basis of the sorting result.
US11676227B2
A specialized server within a real estate showing management system creates a showing appointment for a showing agent to show a listing and a set of geo-fences around the listing when the appointment is created. At a particular time before the showing, the specialized server notifies a showing agent mobile device to download the set of geo-fences and, when requested, provides the set to the mobile device. The mobile device notifies the specialized server when it breaches a geo-fence within the set. The specialized server determines that the showing has started when the notification and the beginning time of the showing appointment are within a predetermined time range. The specialized server then notifies property electronic devices to turn on.
US11676223B2
Described herein are various techniques for managing media related to a construction project, which may relate to one or more buildings to be built and/or renovated as part of the construction project. In accordance with techniques described herein, the media may be managed according to information regarding the construction project that is stored by one or more other systems separate from a media management system. The other systems may be construction information management systems that each store information regarding a construction project, including information relating to planning and/or execution of the construction project. For example, the media management system may generate tags based on the information regarding the construction project, may be trained to recognize features in the media that relate to the tags, and add the appropriate tags to the media based on the recognized features.
US11676220B2
In one embodiment, a method includes receiving a user input based on a plurality of modalities at the client system, wherein at least one of the modalities of the user input is a visual modality, determining one or more subjects and one or more attributes associated with the one or more subjects, respectively, based on the visual modality of the user input, resolving one or more entities corresponding to the one or more subjects based on the determined one or more attributes, and presenting a communication content at the client system responsive to the user input, wherein the communication content comprises information associated with executing results of one or more tasks corresponding to the one or more resolved entities.
US11676219B2
Systems and methods for leveraging Internet of Things data to validate an entity are disclosed herein. An example system may include a set of Internet of Things data collection and monitoring services by which data is collected by a set of algorithms that are configured to monitor Internet of Things information collected from and about entities involved in a loan. The example system may also include an interface to the set of Internet of Things data collection and monitoring services that enables configuration of parameters of the Internet of Things network data collection and monitoring services to obtain information related to at least one of the conditions of guarantee of the loan in which the entities are involved.
US11676218B2
Embodiments can provide a computer implemented method for simulating transaction data using a reinforcement learning model, the method including: generating an artificial customer profile by combining randomly selected information from a set of real customer profile data; providing standard customer transaction data representing a group of real customers having similar transaction characteristics as a goal; conducting, by the intelligent agent, an action including a plurality of simulated transactions; comparing, by the environment, the action with the goal; providing, by the environment, a feedback associated with the action based on a degree of similarity relative to the goal; adjusting, by the policy engine, a policy based on the feedback; the step of conducting an action to the step of adjusting a policy are repeated until the degree of similarity is higher than a first predefined threshold; and combing the artificial customer profile with the action to form simulated customer data.
US11676217B2
A method of training and using a machine learning model that controls for consideration of undesired factors which might otherwise be considered by the trained model during its subsequent analyses of new data. For example, the model may be a neural network trained on a set of training images to evaluate an insurance applicant based upon an image or audio data of the insurance applicant as part of an underwriting process to determine an appropriate life or health insurance premium. The model is trained to probabilistically correlate an aspect of the applicant's appearance with a personal and/or health-related characteristic. Any undesired factors, such as age, sex, ethnicity, and/or race, are identified for exclusion. The trained model receives the image (e.g., a “selfie”) of the insurance applicant, analyzes the image without considering the identified undesired factors, and suggests the appropriate insurance premium based only on the remaining desired factors.
US11676214B2
A computer-implemented method for assessing damage to a plurality of properties is provided. After an occurrence of an event that is a potential cause of insured losses, image data depicting an aerial view of the properties may be received from an aerial platform. The image data may be processed to determine a subsequent condition of each property after occurrence of the event. Further, a damage severity level may be determined for each property, and used to display a map depicting different regions having properties with different respective damage severity levels.
US11676208B2
Auctioning mechanisms adapted to improve the integrity of dark order block trading are provided.
US11676206B2
A variety of embodiments for hardware-accelerating the processing of financial market depth data are disclosed. A coprocessor, which may be resident in a ticker plant, can be configured to update order books and price books based on financial market depth data at extremely low latency. Such a coprocessor can also be configured to enrich a stream of limit order events pertaining to financial instruments with data from a plurality of updated order and price books.
US11676203B2
According to certain embodiments, a user device comprises a communication interface, an input/output (I/O) interface, and processing circuitry. The processing circuitry is configured to obtain a maximum pre-approval amount, generate a graphical user interface comprising an adjustable pre-approval field that enables a user to select up to the maximum pre-approval amount to include in a pre-approval letter, display the graphical user interface via the I/O interface, and receive an input associated with the adjustable pre-approval field via the I/O interface. The input indicates an adjusted pre-approval amount selected by the user. The processing circuitry is further configured to facilitate generating the pre-approval letter indicating that a customer has been pre-approved for the adjusted pre-approval amount, the pre-approval letter including a pre-authorized signature of a lender and generated without sending the lender the adjusted pre-approval amount.
US11676199B2
Method of generating customizable avatar outfits and accessories starts with a processor receiving a first identification information associated with a first article of clothing for sale on a first third-party server. The processor generates an outfit update interface comprising an avatar associated with a user of a client device and a first selectable item corresponding to the first article of clothing. The processor receives a selection from the client device of the first selectable item. The processor modifies the avatar to generate a modified avatar that is wearing an avatar outfit that comprises a first item that resembles the first article of clothing. The processor then causes the modified avatar to be displayed on a display screen of the client device. Other embodiments are disclosed.
US11676198B2
An online transaction with a merchant website is initiated and completed via a single input action by a user. An online transaction application retrieves a first portion of user credit card information from a first storage location and a second portion of the user credit card information from a second storage location, decrypts the first portion with a first decryption key and the second portion with a second decryption key, encrypts and temporarily stores the complete user credit card information, and publishes an order associated with user order information to a pub/sub message bus. In response to the order being published, a headless browser that is connected to the merchant website retrieves and decrypts the unified user credit card information; completes the merchant checkout process; and deletes, erases, or otherwise removes the temporarily stored complete credit card information.
US11676191B2
Efficient systems and methods for multiple-term searching and product ordering. A method includes receiving a plurality of independent search requests from a user and executing a product search for each of the plurality of independent search requests to generate a plurality of independent product results. The method includes providing at least a portion of the plurality of independent product results to the user simultaneously. The method includes receiving a product selection from the user and adding the product selection to a virtual shopping cart for the user while continuing to display at least a portion of the plurality of independent product results.
US11676190B2
Systems and methods of the disclosure relate to selecting content using beacon identifiers. An indication of a location of a user device and a beacon identifier are received. The beacon identifier can correspond to a beacon at a retail location. A data structure storing attribute data associated with the beacon identifier can be accessed. The attribute data can be associated with a signal having a unique identifier of the user device. The signal can indicate the retail location having the beacon. A request for content for display on the user device can be received. A content item can be selected for display on the user device based on the attribute data. A reward value can be determined based on receiving an indication of user interaction with the content item and the attribute data used to select the content item.
US11676184B2
Systems and methods are disclosed for providing a subscription travel service. The systems and methods include operations for receiving travel information with a travel date for a user; computing a subscription value as a function of a booking date and the travel date; determining a minimum travel value and a maximum purchase amount based on the computed subscription value; searching a list of travel services that are available on the travel date to identify candidate travel services each having a first cost that exceeds the minimum travel value; selecting a subset of the candidate travel services that each have a second cost that is less than the maximum purchase amount; and generating for display to a user, in a graphical user interface, one or more interactive visual representations of the selected subset of the candidate travel services.
US11676178B2
In general, embodiments of the present invention provide systems, methods and computer readable media for ranking promotions selected for recommendation to consumers based on predictions of promotion performance and consumer behavior. In embodiments, a set of promotions to be recommended to a consumer can be sorted and/or ranked according to respective relevance scores representing a probability that the consumer's behavior in response to the promotion will match a ranking target. In embodiments, calculating scores is based on a relevance model (a predictive function) derived from one or more contextual data sources representing attributes of promotions and consumer behavior. In embodiments, an absolute relevance score represents an absolute prediction of a ranking target variable. In embodiments, absolute relevance may be used to determine personalized local merchant discovery frontiers; featured result set thresholding for impressions; and/or promotion notification triggers. In embodiments, predictive models based on gross revenue may be optimized using promotion category-dependent price boosting.
US11676177B1
Content presented to a user of an online system is presented along with an option allowing the user to view one or more reasons for presentation of the advertisement content to the user and one or more characteristics of the user satisfying targeting criteria associated with the content. For example, a description identifying one or more selected characteristics of the user satisfying the targeting criteria is presented along with the content. The online system selects the one or more characteristics presented along with the content by applying one or more rules to characteristics of the user satisfying targeting criteria included in the content. The rules may account for accuracy of models used to determine whether the user has characteristics, revenue received by the online system from presenting content associated with targeting criteria identifying various characteristics, or prevalence of characteristics among users or targeting criteria of content.
US11676172B2
The unified payment system, product and method provide an effective and efficient way to better communicate to a merchant the value of running a promotion and determine a deal structure that works for the merchant, the customer, the promotion system, or any combination thereof. The unified payment system, product and method provide real-time ROI calculations that a merchant and sales representative can collaboratively simultaneously work on to identify a deal structure for the merchant to select. In this way, the merchant and sales representative may arrive at a mutually acceptable payment plan.
US11676169B1
An offer decay generation model determines, for a particular customer, a personalized optimal offer decay curve of an incentive corresponding to a product provided by an enterprise, where the offer decay curve defines a set of decreasing incentive values and respective time intervals during which each incentive value is valid. The offer decay generation model is trained on historical data indicative of customers, customer interactions, offered incentives, resulting outcomes of the incentives, and time intervals elapsing between incentives and resulting outcomes. As such, the optimized offer decay curve is structured to maximize a probability that the particular customer is motivated to accept the incentive offer, purchase a product, and/or further interact with the enterprise during the lifetime of the offer decay curve. The offer decay curve may unique to the individual customer, and may be further customized based on other parameters such as location, time/day/date, inventories, etc.
US11676154B2
In one embodiment, a predictive contextual transaction scoring system receives transaction review data associated with person-to-person transactions from a marketplace, the transaction review data including feedback information relating to the person-to-person transaction. The system identifies contextual characteristics of the person-to-person transactions by analyzing the feedback information related to the person-to-person transactions. The system pairs a first party requesting a service to a second party providing the requested service by matching a contextual characteristic of the first party to a contextual characteristic of the second party. The system also predicts a transaction score for a new person-to-person transaction involving the first party and the second party, and provides the predicted transaction score to the marketplace to facilitate pairing of the first party requesting the service.
US11676152B2
Application-based point of sale systems in mobile operating systems. A first application may generate a first URL directed to a second application, a parameter of the first URL comprising an identifier of the first application. A mobile operating system (OS) may access the first URL to open the second application. The second application may receive, from a server, a virtual account number (VAN). The second application may initiate a server on a port and generate a second URL directed to the first application, a parameter of the second URL comprising the port. The OS may access the second URL to open the first application. The first application may establish a connection with the server using the specified port and receive the VAN from the second application via the connection. The first application may autofill the VAN to a form field of a payment form in the first application.
US11676145B2
A method and apparatus for processing secure transactions of a requested service at a merchant point of sale (POS) using a customer mobile device and a virtual payment gateway (VPG) server, the method comprising an authentication and a transaction. The activation establishes a mobile device transport key (mTK) at the mobile device and a server, and assigns a mobile application identifier (MAID) to a mobile application of the mobile device. The transaction is based on generating a mobile device transport session key (msTK) derived from a server generated session ID and the mobile device transport key (mTK) generated during activation. The transaction of the requested service is initiated by the customer mobile device and is processed without storing confidential data such as financial account data or financial account identification data at the POS and/or the customer mobile.
US11676139B2
Techniques and systems described below relate to systems and methods to access and store blockchain data. In various examples, a client computer system submits a blockchain-agnostic request to a computing resource service provider and the service provider processes the request. The chain-agnostic request may be a request that is interoperable between multiple blockchain protocols, such that, for a given request, the request can be fulfilled using multiple underlying blockchain technologies. A computing resource service provider may receive and process chain-agnostic requests by decoding or otherwise interpreting the requests and routing the requests for fulfillment using one or more chain adapters that are accessible to the computing resource service provider. The service provider may determine metadata associated with the request and determining how to fulfill the request, which may include accessing computing resources of the computing resource service provider and/or the associated blockchain network.
US11676138B2
Systems, apparatuses, and methods are provided for enabling a transaction using a token associated with a first payment network to be conducted using a second payment network. When a transaction using a token is submitted to a payment network, the payment network can determine the payment network associated with the token. If the token is associated with a second payment network, a token verification request including the token can be sent to the second payment network. The second payment network can then return a token verification response including a primary account identifier such as a primary account number (PAN) corresponding to the token and a validation result. The transaction may then be processed using the primary account identifier.
US11676117B2
An example operation includes one or more of capturing message content from messages between a sender and receiver which comprise information about a transfer of value from the sender to the receiver, detecting information about a compliance check within the message content which indicates whether the transfer of value complies with jurisdictional regulations, and recording the message content including the detected information about the compliance check via a blockchain.
US11676112B2
A diary addition method, as well as a system, and a non-transitory computer-readable record medium implementing the diary addition method, including providing an interface for selecting data included in a messaging platform in response to an input of a diary creation request for a specific period in a calendar; and creating a diary document based on data selected through the interface and adding the diary document to the calendar in association with the specific period may be provided.
US11676105B2
The present disclosure relates to a method and system for validating tasks in a change management process. A change request associated with one or more tasks is received. The change request may be defined through one or more attributes. Status of each task of one or more tasks is tracked. The tracking checks competition of each of the task associated with the change request and based on the tracking status of each of the task status of the change request is updated.
US11676104B2
Systems and methods are provided for coordinating decisions between noncommunicating parties using quantum physics. The procedure includes recognizing and identifying features of a coordinating decisions between non-communicating parties (CDNP) problem, expressing these features in a precise and mathematical manner, finding a solution using quantum states and measurements, and physically implementing the solution. Since quantum mechanics can violate Bell inequalities, quantum solutions to a CDNP problem have advantages over non-quantum solutions.
US11676101B2
Systems and methods for using kits as a source of inventory in a fulfillment center are described herein. The example systems can be configured to receive a determination to use a kit as a source of a first item, where the kit comprises the first item and a second item. The determination can be based on a low inventory threshold for the first item as well as order data for the first item and the kit. The systems can identify the kit location and create a kit disassembly pick job. The kit disassembly pick job can identify the kit location and provide instructions for disassembling the kit. The systems can transmit the kit disassembly pick job to an autonomous vehicle for completion.
US11676090B2
In an example, a method comprises defining an object comprising a plurality of discrete components, each of which comprises a set of discrete formulas having a predefined order. The method initiates an evaluation of each discrete component by looping over each formula of that discrete component to produce a result set according to the predefined order by evaluating without specifying a dimensionality to produce the result set with a single row, or evaluating the formula with a specified dimensionality to produce the result set with a plurality of rows. The method displays a calculation user interface, determines that an action exists that is associated with at least one formula of at least one discrete component, displays a user-selectable element corresponding to the action, and automatically pauses computation of at least a portion of the evaluation until input selecting the user-selectable element is received.
US11676087B2
In an illustrative embodiment, systems and methods by which a computerized platform accesses a data set pertaining to system characteristics and delivers the data to models to assist a user in identifying and remedying cyber vulnerabilities may include models for identifying vulnerabilities based on system characteristics and for identifying remedial actions and services to mitigate the vulnerabilities. Models may be created for quantifying composite risk exhibited by the system and may quantify risk on a domain-by-domain basis. The influence that performance of one or more remedial actions may have on the quantified risk profile of the system may be automatically projected. The response of an insurance marketplace as it pertains to offering policies to cover losses arising from cyber vulnerabilities exhibited by the system, either in its status quo or as altered via by enacting one or more remedial actions, may be automatically projected.
US11676081B2
A method encompasses a damage evaluation session which may be initiated by an evaluation system user using a user device such as a smartphone. The evaluation session allows the user to identify a damaged section of a damaged product, and then displays a properly sized representation of the damaged section at the user device. This displayed representation of the damaged section is associated with a grid which defines a number of grid segments with each grid segment aligned with a respective portion of the representation. The method includes receiving a damage and location information input for one or more of the grid segments. Based upon the damage and location information input for the one or more grid segments, damage estimate data is retrieved from a repair data store and applied to produce an overall repair cost estimate for the damaged section.
US11676080B1
A method, apparatus, and system of managing digital queues for multiple store locations are disclosed. A method includes receiving, by an enterprise computing system associated with the branch location, a request from a mobile device based on the mobile device navigating to a uniform resource locator (URL) from scanning a code associated with the branch location, in response to the request, causing a graphical user interface (GUI) to display on the mobile device that prompts a user for additional information regarding the request, receiving, from the mobile device via the GUI, the additional information including identity information regarding the user and a reason for the request, identifying a queue specific to the branch location based on the request and additional information, adding the user to the queue, and providing, by the enterprise computing system, a confirmation notification to the user indicating that the user has been added to the queue.
US11676078B2
A predictor has a memory which stores at least one example for which an associated outcome is not known. The memory stores at least one decision tree comprising a plurality of nodes connected by edges, the nodes comprising a root node, internal nodes and leaf nodes. Individual ones of the nodes and individual ones of the edges each have an assigned module, comprising parameterized, differentiable operations, such that for each of the internal nodes the module computes a binary outcome for selecting a child node of the internal node. The predictor has a processor configured to compute the prediction by processing the example using a plurality of the differentiable operations selected according to a path through the tree from the root node to a leaf node.
US11676058B2
An artificial intelligence system within a network including a plurality of interconnected nodes including a first node and a second node, containing a set of interconnected nodes, a “network,” in which some nodes are externally connected, and all nodes are connected to a subset of the other nodes in such a way that the output channel of one node is connected to the input channel of another via a two-way connection, and where each node has access to the system clock, and has a classical computer (CC), and has a quantum computer (QC), and has one or more input channels, each capable of sending or receiving signals, and has one or more output channels, each capable of sending or receiving signals, and can perform a quantum computation cycle.
US11676053B2
In some embodiments, systems, methods, and media for automatically identifying entrepreneurial individuals in a population using individual and population level data are provided. In some embodiments, a system is provided, comprising: a database storing: grades and identifying information for classes; a hardware processor configured to: calculate, for each class, a difficulty value based on the grade for each individual; modify grades associated with the individual based on the difficulties; determine a variance using the modified grades; determine an average variance; determine that the variance for a first individual is larger average; determine that the first individual is more likely than average to be entrepreneurial; in response to determining that the first individual is more likely than average to be entrepreneurial, add identifying information of the first student to a second database of potential entrepreneurs.
US11676050B2
A method, system, and computer-usable medium are disclosed for, comprising: examining pairs of samples in each leaf node of a plurality of decision trees and for each pair of samples, determining a neighbor frequency of each pair of samples as a frequency of how often such pair of samples are filtered into a particular leaf node of the plurality of decision trees and for each leaf node of the plurality of decision trees, determining a neighbor frequency of the leaf node as an average of the neighbor frequencies of the samples of the leaf node.
US11676047B1
The present disclosure provides systems and methods for collecting distributed information regarding air quality and air management system performance, and providing recommendations for affecting the air quality, the air management system, or individuals subject to or in control of either the air quality or the air management system.
US11676044B1
Systems and methods for generating a chatbot are disclosed. Source data is identified. A first chunk of the source data is also identified. A first machine learning model is executed for automatically generating a first candidate question associated with the first chunk. A determination is made as to whether the first candidate question satisfies a criterion. The first candidate question is output as training data for training the chatbot in response to the determination.
US11676042B2
A cognitive information processing system environment which includes a plurality of data sources; a cognitive inference and learning system coupled to receive a data from the plurality of data sources, the cognitive inference and learning system processing the data from the plurality of data sources to provide cognitively processed insights, the cognitive inference and learning system further comprising performing a learning operation to iteratively improve the cognitively processed insights over time; and, a destination, the destination receiving the cognitively processed insights.
US11676035B2
Methods, systems, and apparatus, including computer programs encoded on computer storage media, for training a neural network. The neural network has a plurality of differentiable weights and a plurality of non-differentiable weights. One of the methods includes determining trained values of the plurality of differentiable weights and the non-differentiable weights by repeatedly performing operations that include determining an update to the current values of the plurality of differentiable weights using a machine learning gradient-based training technique and determining, using an evolution strategies (ES) technique, an update to the current values of a plurality of distribution parameters.
US11676030B2
A learning method executed by a computer, the learning method including augmenting original training data based on non-stored target information included in the original training data to generate a plurality of augmented training data, generating a plurality of intermediate feature values by inputting the plurality of augmented training data to a learning model, and learning a parameter of the learning model such that, with regard to the plurality of intermediate feature values, each of the plurality of intermediate feature values generated from a plurality of augmented training data, augmented from reference training data, becomes similar to a reference feature value.
US11676016B2
A method of selecting an artificial intelligence (AI) model based on input data to select an AI model capable of correctly obtaining a result corresponding to data to be classified, e.g., a classification result indicating one of at least one class, from among a plurality of AI models, and a display device for performing the method.
US11676014B1
Described herein are systems and methods for applying machine learning to telematics data to generate a unique vehicle fingerprint by periodically receiving telematics data generated at a plurality of sensors of a vehicle; standardizing the telematics data; aggregating the standardized telematics data; applying a trained machine learning model to embed the aggregated telematics data into a low-dimensional state; and generating a unique vehicle fingerprint, the vehicle fingerprint comprising a static component, a dynamic component, or both a static component and a dynamic component; including iterative repetition to update the dynamic component of the vehicle fingerprint.
US11676012B2
Disclosed herein is an artificial intelligence server which receives a user dictionary, calculates rankings of a plurality of keywords included in the user dictionary, generates a cloud user dictionary according to the rankings of the plurality of keywords, and trains a natural language processing model.
US11676009B2
A method for designing a material for an aircraft component according to one example includes training a neural network to correlate microstructural features of an alloy with material properties of the alloy by at least providing a set of images of the alloy. Each of the images in the set of images has varied constituent compositions and at least one patch of corresponding data is embedded into the image. The method also includes determining non-linear relationships between the microstructural features and corresponding empirically determined material properties via a machine learning algorithm, receiving a set of desired material properties of the alloy for aircraft component, and determining a set of microstructural features capable of achieving the desired material properties of the alloy based on the determined non-linear relationships.
US11676003B2
Technology related to training a neural network accelerator using mixed precision data formats is disclosed. In one example of the disclosed technology, a neural network accelerator is configured to accelerate a given layer of a multi-layer neural network. An input tensor for the given layer can be converted from a normal-precision floating-point format to a quantized-precision floating-point format. A tensor operation can be performed using the converted input tensor. A result of the tensor operation can be converted from the block floating-point format to the normal-precision floating-point format. The converted result can be used to generate an output tensor of the layer of the neural network, where the output tensor is in normal-precision floating-point format.
US11676002B2
A neural network accelerating method and device includes: reading a total video memory size available for a GPU to execute computing of a neural network, setting a size of a configurable level, and determining a finest granularity of a factor used for splitting a workspace; generating an optimal acceleration solution architecture for determining an optimal batchsize and an optimal network layer configuration that enable fastest convolution execution; generating a state transition equation for a multiple knapsack problem by taking a convolution operation efficiency boundary condition in the optimal acceleration solution architecture as a fitness function; iterating the state transition equation by using a genetic algorithm taking a forward and back convolution function as evaluation bases until a convergent batchsize and network layer configuration are obtained, and accelerating the neural network by taking the convergent batchsize and the network layer configuration as the optimal batchsize and the optimal network layer configuration.
US11675995B2
Methods for increasing the read range of an electronic communication module within a tire and methods for improving the read range of an electronic communication module within a tire are provided herein. As discussed further herein, the read range can be improved by applying strain to the tire without circumferentially contacting the outer surface of its tread, resulting in an increase in the same-distance-signal-strength of 5% or more. Also provided are tires made according to the disclosed methods.
US11675993B2
Disclosed are a method and device for recognizing a two-dimensional bar code for improving the efficiency of recognizing the two-dimensional bar code. The method comprises: a relative position of a household appliance and a terminal device is determined during network configuration of the household appliance; a display parameter for displaying the two-dimensional bar code is determined according to the relative position, wherein the display parameter comprises a size of the two-dimensional bar code to be displayed and the two-dimensional bar code carries device information of the household appliance; the display parameter is sent to the household appliance to enable the household appliance to display a two-dimensional bar code picture according to the display parameter; and the two-dimensional bar code picture is recognized to obtain the device information of the household appliance.
US11675990B2
An image processing apparatus including a first obtaining unit configured to obtain first image data to be printed, a second obtaining unit configured to obtain second image data indicating a subject identical to that of the first image data and expressed by a geometric condition different from that of the first image data, and a determination unit configured to determine ink amounts of respective inks including a first ink that reflects light in a normal reflection and a second ink that is different from the first ink and has a ratio of an intensity of light reflected in the normal reflection direction to an intensity of light reflected in the diffuse direction smaller than that of the first ink in a case where light based on brightness at each position of the first image data and the second image data.
US11675986B2
An optical scanner captures a plurality of images from a plurality of image-capture devices. In response to the activation signal, an evaluation phase is executed, and in response to the evaluation phase, an acquisition phase is executed. In the evaluation phase, a first set of images is captured and processed to produce a virtual frame comprising a plurality of regions, with each region containing a reduced-data image frame that is based on a corresponding one of the plurality of images. Also in the evaluation phase, attributes of each of the plurality regions of the virtual frame are assessed according to first predefined criteria, and operational parameters for the acquisition phase are set based on a result of the assessment. In the acquisition phase, a second set of at least one image is captured via at least one of the plurality of image-capture devices according to the set of operational parameters.
US11675985B2
The present disclosure relates to systems and methods for generating intrinsic matrixed bar codes, such as Quick Response (“QR”) codes. In one implementation, system for generating an intrinsic matrixed bar code may include an image-receiving device, a processor configured to execute instructions, and a memory storing the instructions. The instructions may include instructions to: receive an image using the image-receiving device, generate a registration mark corresponding to the received image, select coordinates on the received image, overlay one or more matrixed bar codes on the selected coordinates, update the registration mark with the selected coordinates, and overlay the registration mark on the received image.
US11675971B1
In some implementations, a system dynamically adjusts an electronic form of an application based on user data and form data specified for the electronic form. Form data that specifies characteristics of the electronic form is initially received by a computing device. The form data specifies one or more rules configured to vary the content of the electronic form that is presented for different users. User data indicating characteristics of a user is then obtained by the computing device. An interactive element is then selected from among a set of multiple interactive elements based on the received user data and the rules in the received form data. A view of the electronic form is customized for the user by including, in the customized view, the interactive element. The view of the customized electronic form is then displayed by the computing device.
US11675967B2
A method and system for generating automated front-end code for a website from design files is described. In one embodiment, a method for generating automated front-end code for a website includes obtaining at least one design file associated with a design of a website from a client device. Hypertext markup language (HTML) code and a cascading style sheet (CSS) file is automatically generated from the at least one design file from information obtained from a plurality of layers associated with the design file. The method includes extracting a plurality of extracted image files from the at least one design file. The method further includes providing front-end code for the website that includes the HTML code, the CSS file, and the plurality of extracted image files to the client device.
US11675961B2
A semiconductor cell structure includes four pairs of conductive segments, a first gate-strip, and a second gate-strip. A first conductive segment is configured to have a first supply voltage, and a second conductive segment is configured to have a second supply voltage. Each of the first gate-strip and the second gate-strip intersects an active zone over a channel region of a transistor. The first gate-strip is conductively connected to the second conductive segment. The semiconductor cell structure also includes a first dummy gate-strip and a second dummy gate-strip. The first dummy gate-strip separates from the first gate-strip by one CPP. The second dummy gate-strip separates from the second gate-strip by one CPP. The first gate-strip and the second gate-strip are separated from each other by two CPPs. The dummy gate-strip and the second dummy gate-strip are separated from each other by four CPPs.
US11675956B2
A system includes a machine configured to perform operations including accessing an integrated circuit design including a buffer tree that interconnects a plurality of inputs and buffers. The buffer tree includes a baseline timing characteristic. The operations include identifying a set of candidate solutions for improving the baseline timing characteristic using an initial timing model and selecting a subset of candidate solutions that have a timing characteristic lower than the baseline timing characteristic. Then the subset of candidate solutions are evaluated using a detailed timing model and based on determining that at least one candidate solution in the subset has a timing characteristic that is better than the baseline timing characteristic, selecting a candidate solution from the set of candidate solutions, and updating the buffer tree based on the candidate solution.
US11675950B2
The present disclosure provides a method and an apparatus for testing a semiconductor device. The method includes providing an active area in an integrated circuit design layout; grouping the active area into a first region and a second region; calculating a first self-heating temperature of the first region of the active area; calculating a second self-heating temperature of the second region of the active area; and determining an Electromigration (EM) evaluation based on the first self-heating temperature and the second self-heating temperature.
US11675948B2
Methods and apparatus for performing profile-guided optimization of integrated circuit hardware are provided. Circuit design tools may receive a source code and compile the source code to generate a hardware description. The hardware description may include profiling blocks configured to measure useful information required for optimization. The hardware description may then be simulated to gather profiling data. The circuit design tools may then analyze the gathered profiling data to identify additional opportunities for hardware optimization. The source code may then be modified based on the analysis of the profiling data to produce a smaller and faster hardware that is better suited to the application.
US11675945B2
Systems and methods are disclosed for generation and testing of integrated circuit designs with clock crossings between clock domains and reset crossings between reset domains. These may allow for the rapid design and testing (e.g. silicon testing) of processors and SoCs. Clock crossings may be automatically generated between modules, inferring the values of design parameters, such as a signaling protocol (e.g. a bus protocol), directionality, and/or a clock crossing type (e.g., synchronous, rational divider, or asynchronous), of a clock crossing. Reset crossings may be automatically generated in a similar manner. For example, implicit classes may be used to generate clock crossings or reset crossings in a flexible manner. For example, these system and methods may be used to rapidly connect a custom processor design, including one or more IP cores, to a standard input/output shell for a SoC design to facilitate rapid silicon testing of the custom processor design.
US11675941B2
A method for modeling fluid flow in a wellbore is provided. Hydraulic fracturing is an effective technique to improve well productivity by forming high permeable pathways for hydrocarbons to flow from the rock formation to the wellbore. Fluid flow for hydraulic fracturing is modeled using separated flow components, including a wellbore component (modeling the wellbore(s)), a perforation component (modeling the perforations(s)), a fracture component (modeling the fracture(s)) and a rock component (modeling the rock). Each respective component may be selected independently from a plurality of available components. Further, the respective components may be coupled to one another only at their interfaces, such as at a wellbore-perforation interface, a perforation-fracture interface, and a fracture-rock interface, for continuity of fluid kinematics and properties (such as pressure and density). In this way, the modeling of the subsurface may be tailored to the respective components in order to effectively predict the fracturing treatment.
US11675940B2
Methods, systems, and apparatus, including computer programs encoded on computer storage media, for generating a computer chip floorplan. One of the methods includes obtaining netlist data for a computer chip; and generating a computer chip floorplan, comprising placing a respective node at each time step in a sequence comprising a plurality of time steps, the placing comprising, for each time step: generating an input representation for the time step; processing the input representation using a node placement neural network having a plurality of network parameters, wherein the node placement neural network is configured to process the input representation in accordance with current values of the network parameters to generate a score distribution over a plurality of positions on the surface of the computer chip; and assigning the node to be placed at the time step to a position from the plurality of positions using the score distribution.
US11675939B2
A computer-implemented method for civil engineering including obtaining a mesh representing a terrain and a polyline on the mesh, the method further includes computing a contributor of the polyline. The computing of the contributor includes modifying the mesh by determining, based on the polyline, a trench below the polyline. The computing of the contributor further includes computing a watershed segmentation of the terrain based on the modified mesh. The computing of the contributor further includes, based on the computed watershed segmentation, identifying, on the modified mesh, a basin comprising the trench. The contributor corresponds to the identified basin.
US11675937B2
The invention relates to a method for simulation-based analysis and/or optimization of a motor vehicle, preferably having the following working steps: simulating (SIOI) a driving operation of the motor vehicle (I) on the basis of a model (M) with at least one manipulated variable for acquiring values of at least one simulated variable which is suitable for characterizing an overall vehicle behaviour, in particular a driving capability, of the motor vehicle (I), wherein the model has at least one partial model, in particular a torque model, and wherein the at least one partial model is based on a function and preferably characterizes the operation of at least one component, in particular of an internal combustion engine of the motor vehicle (I); and—outputting (S I03) the values of the at least one simulated variable.
US11675936B2
A design and testing simulation scales an industrial simulation across multiple different processing nodes, and generates a unified view of the distributed industrial simulation based on simulation and graphics data collected from the multiple processing nodes. The system can allow the user to designate different portions of the a digital model of an automation system to be executed on respective different distributed processing nodes, such that each portion of the model is executed on its designated node and the nodes exchange data as necessary to simulate the aggregate automation system as a whole. In order to visualize this aggregated simulation, the design and testing system unifies the distributed portions of the model into a unified three-dimensional presentation at a single node, and this unified view is animated based on data received from the nodes on which the distributed simulation is executed.
US11675929B2
In various embodiments, an entity may provide a WebView where a transaction between an entity and a data subject may be performed. As described herein, the transaction may involve the collection or processing of personal data associated with the data subject by the entity as part of a processing activity undertaken by the entity that the data subject is consenting to as part of the transaction. Additionally, the entity may provide a native application where the transactions between the entity and a data subject may be performed. In some embodiments, the system may be configured to share consent data between the WebView and the native application so data subjects experience a seamless transition while using either the WebView or the native application, and the data subjects are not required to go through a consent workflow for each of the WebView and the native application.
US11675920B2
The present disclosure is directed to protecting data stored at a database in a manner that increases data protection minimizing performance reductions. Apparatus and methods consistent with the present disclosure may collect information from user devices from which user inputs are received when collecting data that may be used to protect database data. Methods consistent with the present disclosure may identify code paths traversed, pages of program code where actions were initiated, and functions associated with those actions. This information may be cross-referenced with a set of data, constraints, rules, or command parameters when data associated with a database query is initially associated with an “allow” action or a “deny” action. This information may also be used to evaluate whether newly generated database queries should be allowed to be sent to a database server or to identify whether a database request should be blocked.
US11675918B2
A collaboration system manages a plurality of content objects that are shared by multiple users at corresponding user devices in corresponding computing environments. Policies that govern interactions over the plurality of content objects are established. A content object upload request from a first user belonging to a first enterprise is processed by the collaboration system and then the content object is shared with a second user of a second enterprise. Security characteristics pertaining to the second user, and/or the second enterprise, and/or the second user's devices are initially unknown or unverified. As such, upon receiving interaction events raised by a user device of the second user, a set of interaction attributes associated with the interaction events are gathered. One or more trust policies are applied to the interaction attributes to evaluate security conditions that correspond to the interaction events. A response is generated based on the evaluated security conditions.
US11675914B2
Embodiments of the disclosure include systems and methods for secure storage and/or retrieval of customer secrets by, e.g., a cloud services provider. According to methods, secret data that is to be securely stored may be transmitted, along with an initialization vector, to an encryption service for encryption using a private key stored on in a remote key vault. The encrypted data can be returned and stored, in its encrypted form, in a secure storage along with the initialization vector data. To retrieve the securely stored data, embodiments disclose retrieving the encrypted form of the data and transmitting it, along with its related initialization vector data, to the encryption service for decryption using the private key stored in the remote key vault. The decrypted data can then be made available to a requesting product service.
US11675912B2
A computer-implemented method is provided for statistical modeling of entities of a particular type. The method can include obtaining entity data including a plurality of entity data sets, each entity data set associated with a respective entity and including values for one or more static parameters indicative of a type of the entity. Each entity data set can include (i) values for input parameter(s) indicative of a security profile of the entity and (ii) a value of a security class parameter indicative of a security class of the entity based on the values of the input parameters. The method can include training a statistical classifier to infer a value of the security class parameter indicative of the security class of a particular entity of the particular type based on values of one or more of the input parameters indicative of a security profile of the particular entity.
US11675911B2
The disclosure relates to system and method for managing security risk of information technology (IT) systems in an enterprise. The method includes determining valid trustware components that need to be evaluated for security risk of an IT system within the enterprise; correlating information associated with each of the valid trustware components in a set of data repositories; generating a mapping list comprising the valid trustware components, test cases corresponding to each of the valid trustware components, and test environments corresponding to each of the valid trustware components based on the correlation; triggering trustware security units for testing the valid trustware components based on the mapping list; and identifying security issues associated with the valid trustware components based on the testing. The trustware security units are arranged in a sequential manner or a parallel manner to align with execution of the test cases corresponding to each of the valid trustware components.
US11675910B2
A system, method, and computer-readable medium are disclosed for performing a security operation. The security operation includes: monitoring an entity, the monitoring observing at least one electronically-observable data source; deriving an observable based upon the monitoring of the electronically-observable data source; identifying a security related activity of the entity, the security related activity being based upon the observable derived from the electronic data source, the security related activity being of analytic utility; converting the security related activity to entity behavior catalog data, the entity behavior catalog providing an inventory of entity behaviors; and, accessing an entity behavior catalog based upon the entity behavior catalog data; and performing a security operation via a security system, the security operation using the entity behavior catalog data stored within the entity behavior catalog based upon the security related activity.
US11675909B1
In some embodiments, an apparatus can include a host board that has multiple connectors. Each connector from the multiple connectors removably connects to a unique compute device from multiple compute devices. The apparatus can further include a memory that stores a first firmware. The apparatus can further include a controller that is operatively coupled to the multiple connectors and the memory. The controller provides access to the first firmware by a compute device from the multiple compute devices when the compute device removably connects to the host board via a connector from the multiple connectors and when a circuit of the compute device disables access to the memory of the compute device to cause the compute device to continue a power-on cycle using the first firmware.
US11675904B1
Disclosed herein are embodiments of systems, methods, and products providing real-time anti-malware detection and protection. The computer uses artificial intelligence techniques to learn and detect new exploits in real time and protect the full system from harm. The computer trains a first machine learning model for executable files. The computer trains a second machine learning model for non-executable files. The computer trains a third machine learning model for network traffic. The computer identifies malware using the various machine learning models. The computer restores to a clean, uncorrupted state using virtual machine technology. The computer reports the detected malware to a security server, such as security information and even management (SIEM) systems, by transmitting detection alert message regarding the malware. The computer interacts with an administrative system over an isolated control network to allow the system administrator to correct the corruption caused by the malware.
US11675903B2
Provides an apparatus for detecting variants of malicious code based on neural network learning, a method therefor and a computer readable recording medium storing a program for performing the method. According to the present invention, one-dimensional binary data is converted into two-dimensional data without separate extraction of features, and deep learning is performed through a neural network having a nonlinear multilayered structure, such that the features of the malicious code and variants thereof may be extracted by performing the deep learning. Therefore, since no separate feature extraction or artificial effort by an expert is required, an analysis time is reduced, and variants of malicious code that cannot be captured by existing malicious code classification tools may be detected by performing the deep learning.
US11675898B2
An illustrative method includes a data protection system directing a storage system to generate recovery datasets over time in accordance with a data protection parameter set, the recovery datasets usable to restore data maintained by the storage system to a state corresponding to a selectable point in time, determining that the storage system is possibly being targeted by a security threat, and modifying, in response to the determining that the storage system is possibly being targeted by the security threat, the data protection parameter set for one or more of the recovery datasets.
US11675894B2
A user may conduct a plurality of access requests with a plurality of resource provider computers. A processor server computer may determine whether resource provider computers store access data associated with the user in various ways, including detecting patterns in sets of a plurality of access requests conducted between the user and each of the plurality of resource provider computers. Upon detecting that access data has changed, the processor server computer may automatically send the updated access data to each of the identified resource provider computer.
US11675888B2
Systems and methods for authenticating a user to access a public terminal are described. Disclosed embodiments may include reading, using the physical credential reader, a user identifier from the physical credential device. Disclosed embodiments may also include transmitting the public terminal identifier and the user identifier to a secure server. Further, disclosed embodiments may include receiving, after completing the transmission, a unique code from the secure server. Disclose embodiments may additionally include displaying the unique code on the display device. Disclosed embodiments may include receiving, after displaying the unique code, an authentication message from the secure server. Disclosed embodiments may further include, responsive to receiving the authentication message, authorizing the user to use a terminal command at the public terminal.
US11675883B2
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for a biometric authentication system. In one aspect, a method includes identifying a target user in proximity to a kiosk. Data for the target user is gathered from equipment on and in proximity to the kiosk. The gathered data is processed to generate a feature vector. The feature vector includes at least motion characteristics of the target user as the target user approaches the kiosk and touch input characteristics of the target user at the kiosk. A candidate user to compare to the target user is determined. Reference data for the candidate user is retrieved. The feature vector is compared to the reference data for the candidate user to determine a likelihood that the target user is the candidate user. A kiosk application is customized for the target user based on the determined likelihood.
US11675878B1
A multimodal system is provided for managing safety in an industrial environment. The system comprises: a computer vision component for generating a computer vision output data; a real-time locating component for generating location data about an object within the industrial environment; a LIDAR component for generating 3D point cloud data of the industrial environment; and one or more processors coupled to the computer vision component, the real-time locating component and the LIDAR component and configured to: (i) generate label data using the location data and identity about one or more objects generated by the real-time locating component, and (ii) update one or more predictive models utilized by the component vision component or the multimodal system using the label data.
US11675870B2
Disclosed herein are systems and methods for an identity mapping tool that bridges the gap between editing and displaying the contents of a website, regardless of the underlying technology, so as to enable development of an intuitive, visual website-editing experience. The disclosure obtains a website's content, determines relationships between the content and website, and maps the website. The tool obtains access to the content, layouts/templates, and black-box generation process of a website and deduces the correlation between the content's fields and the elements of any of the website's resulting webpages. It taints the content-source data, iteratively feeds it into a site generation process, and inspects the resulting artifacts to determine correlations between fields in the content source and the resulting website. The artifacts may be further employed to generate a user-interface display with controls for facilitating management of the website.
US11675869B2
Aspects described herein may provide determination of compliance with accessibility rules by a webpage. A first version of a webpage may be compliant with the accessibility rules. The first version of the webpage may be modified to create the second version of the webpage. The second version of the webpage may be displayed. A voiceover of the second version of the webpage may be initiated. The voiceover may include starting automatic text-to-speech software that reads aloud the second version of the webpage. The voiceover of the second version of the webpage may be recorded and stored. A textual transcript of the stored recording may be generated. Compliance of the second version of the webpage with the accessibility rules may be determined based on the textual transcript of the stored recording and based on the first version of the webpage.
US11675864B2
The present technology pertains to a link service that can create, maintain, and service links to objects on behalf of a content management system or other services. The link service can share administration of links with other services when desired or can even allow other services to issue the link and manage the object that is the subject of the link while providing other functions to support the link. Additionally, link service can interface with a file system that can support links as actors in the file system, whereby greater control and flexibility in supporting links is provided. Link service can also accommodate servicing and management of links issued by legacy services, where the legacy services have unique link logic that should still be utilized to maintain a consistent user experience.
US11675862B1
Disclosed herein are embodiments of systems, methods, and products comprises a server, which provides trigger-based personalized sales outreach based on a user's request. The request comprises a list of target companies/people. The server scans a variety of sources by web crawling the sources' web documents and finds news items relevant to the target companies/people. The server determines an importance score for each news item that measures the probability of a sales representative being interested in the news item. The server applies a set of filters comprising a network of neural networks to filter out false positives. The analytic server determines a relevancy score for each news item. The server generates a GUI to display the news items satisfying certain thresholds. Based on the user's selection on the news items, the server uses the news items as triggers of outreach and generates an electronic message template prepopulated with the news items.
US11675855B2
Methods, systems, and apparatus, including computer programs encoded on computer storage media, for re-ranking a collection of documents according to a first metric and subject to a constraint on a function of one or more second metrics. One of the methods includes: obtaining, for each document in the first collection of documents, a respective first metric value corresponding to the first metric and respective one or more second metric values corresponding to the one or more second metrics; re-ranking the first collection of documents, comprising: determining the constraint on the function of one or more second metrics by computing a first threshold value using a variable threshold function that takes as input second metric values for the documents in the first collection of documents; and determining the re-ranking for the first collection of documents by solving a constrained optimization for the first metric constrained by the first threshold value.
US11675850B2
The present disclosure relates to systems, non-transitory computer-readable media, and methods for efficiently providing a graphical user interface for visualizing large amounts of data on a single interface. In particular, in one or more embodiments, the disclosed systems utilize topic hierarchies and multidata display elements to intuitively present many types of data for many topics on a single interface. The system also uses an activatable timeline to visualize changes to large amounts of data over time.
US11675846B2
The present invention relates to a system for providing nutritional balance based on pet health information, and more particularly, to a system for providing nutritional balance based on pet health information, which determines the amount of supply of a recipe in consideration of pet information, such as the kind, a growth stage, and an activity stage of a pet, and the amount of motion of a pet obtained from a sensor attached to a pet, thereby providing an optimum recipe and amount.
US11675842B1
Technologies are provided for generation of recommendation results using a verbal query. In one embodiment, query data can be generated using a searchable query corresponding to the verbal query. The query data can define a query browse node and a product brand, for example. First product identifiers that match the searchable query can be determined using multiple data repositories. Duplicates from the first product identifiers can be removed, resulting in second product identifiers. Attribute data also can be generated using the second product identifiers. The attribute data can define features for a product identifier. Further, third product identifiers can be determined by applying a filtering model to the second product identifiers. A ranking of the third product identifiers can be generated using an optimization function based on the query data and the product attribute data. A product corresponding to one of the ranked product identifiers represents a recommendation result.
US11675840B2
Aspects described herein may relate to a transaction exchange platform using a streaming data platform (SDP) and microservices to process transactions according to review and approval workflows. The transaction exchange platform may receive transactions from origination sources, which may be added to the SDP as transaction objects. Microservices on the transaction exchange platform may interact with the transaction objects based on configured workflows associated with the transactions. Processing on the transaction exchange platform may facilitate clearing and settlement of transactions. Some aspects may provide for dynamic and flexible reconfiguration of workflows and/or microservices. Other aspects may provide for data snapshots and workflow tracking, allowing for monitoring, quality control, and auditability of transactions on the transaction exchange platform.
US11675838B2
An approach is provided for completing a pipeline graph. Using a deep learning based sequence model, an initial data pipeline having a sequence of nodes is generated. Mismatch(es) between data formats required by input and output in the sequence of nodes is identified. Virtual gap node(s) that correct the mismatch(es) are added to the initial data pipeline. For a given virtual gap node, tentative graph structures are determined using knowledge graphs and a crowd sourced validation system. Reuse forecast scores and performance scores for the tentative graph structures are calculated. Based on the reuse forecast scores and the performance scores, a final graph structure for implementing the given virtual gap node is determined.
US11675837B2
The present technology enables identification, visualization, and analysis of data flows via network components in complex enterprise IT environments including but not limited to servers, workstations, switches, routers, wireless access points, traffic shapers, firewalls, storage systems and SAN systems. The technology is based on a combination of information collection, information filtering, mapping, grouping, marking, report generation, and verification.
US11675833B2
The present teaching relates to recommending content by analyzing the streamed data. A request is received from a user requesting one or more recommendations from a set of items. A first distribution indicative of an interest distribution of the user in a plurality of topics is obtained. For each item, a second distribution indicative of a classification distribution of the item with respect to the plurality of topics is obtained. A score is estimated based on the first distribution and the second distribution, wherein the score indicates likelihood that the user is interested in the item. The scores associated with the set of items are ranked. The one or more recommendations are presented based on the ranked scores.
US11675832B2
A search device includes: a storage unit configured to store a video obtained from a camera; a screen unit to display the video; and a control unit to control operation of the storage unit and the screen unit, wherein the screen unit may display a time control interface for receiving a time condition, wherein the search device may search for videos and events stored in the storage unit in response to the time condition, and wherein the time control interface may include an AM control interface for receiving a morning time as the time condition and a PM control interface for receiving an afternoon time as the time condition.
US11675829B2
Systems and processes for operating an intelligent automated assistant are provided. In accordance with one example, a method includes, at an electronic device with one or more processors and memory, receiving a first natural-language speech input indicative of a request for media, where the first natural-language speech input comprises a first search parameter; providing, by a digital assistant, a first media item identified based on the first search parameter. The method further includes, while providing the first media item, receiving a second natural-language speech input and determining whether the second input corresponds to a user intent of refining the request for media. The method further includes, in accordance with a determination that the second speech input corresponds to a user intent of refining the request for media: identifying, based on the first parameter and the second speech input, a second media item and providing the second media item.
US11675821B2
Described herein are systems and methods for facilitating the information entry and task updates to a task database in a cloud server. In one embodiment, a method includes the operations of receiving, by one or more neutral network models on a cloud server, voice instructions captured by an interactive voice response (IVR) application on a mobile device, wherein the voice instructions are to update states of one or more tasks displayed in a voice interface of the IVR application; recognizing the voice instructions and constructing appropriate texts using the one or more trained neutral network models; presenting the texts to one or more voice interfaces provided by the IVR application for confirmation by a user; and storing the user confirmed texts to a repository on the cloud server.
US11675819B2
Method, system, and computer program product for providing traffic data using subtree data structure
A method, a system, and a computer program product may be provided for providing traffic data to a client device. The system may receive from the client device, a request for traffic data corresponding to road segments of at least one map area, said request identifying the at least one map area and determine road segment identifiers corresponding to each of the road segments of the at least one map area and determine traffic data for at least a portion of the road segment identifiers, said traffic data obtained from a traffic data source. The system may further determine a plurality of traffic ranges based on the obtained traffic data and generate a subtree data structure set, each subtree data structure of the subtree data structure set corresponding to a traffic range of the plurality of traffic ranges, wherein each subtree data structure encodes road segment identifiers corresponding to the respective traffic range.
US11675807B1
A database interface system uses individual application program interfaces to receive, convert, combine, and normalize if necessary, datasets received from disparate sources. The datasets may include quotes from various insurance providers. The categorized and normalized data may be further processed for presentation via a user interface that allows selective display of the full combined datasets or graphically selected subsets of the full datasets.
US11675805B2
Methods, systems, and computer-readable media are disclosed herein to provide rule-based reconciliation of records. Specifically, rules are utilized to reconcile one or more records and identify duplicates therein. Once duplicate records are identified, one or more ranking sets can be utilized to identify which of the duplicate records to write to the system.
US11675804B2
Systems and methods for ingesting different data types using a are disclosed. According to one embodiment, a method for universal data ingestion may include: (1) receiving, at a data ingestion layer in a multi-layer pod, data from a data producer, wherein the data may be in any format; (2) ingesting, by the data ingestion layer, the data using a producer proxy agent or an ingestion application programming interface (API); (3) staging, by a data messaging/staging layer in the multi-layer pod, the ingested data; (4) enriching or transforming, by a data enrichment/transformation layer in the multi-layer pod, the staged data based on at least one customer requirement; and (5) routing, by a data connection layer in the multi-layer pod, the enriched or transformed data from the data messaging/staging layer to a data store at an appropriate velocity.
US11675796B2
A method of processing media content in Moving Picture Experts Group (MPEG) Network Based Media Processing (NBMP) is performed by at least one processor, and includes performing a function and function group discovery, wherein wildcard search is enabled in the function and function group discovery, transmitting, to a function repository storing one or more functions for processing the media content, a search query for at least one among the one or more functions, based on the search query being transmitted, receiving, from the function repository, a reply identifying the at least one among the one or more functions and including a rank of the at least one among the one or more functions, and processing the media content, using the identified at least one among the one or more functions in an order based on the included rank of the at least one among the one or more functions.
US11675794B2
In one implementation, a computer-implemented method includes receiving a parameterless search request, which was provided to a mobile computing device, for information that is relevant to a user of the mobile computing device. The method also includes, in response to the received parameterless search request, identifying with a digital computer system one or more results that are determined to be relevant to the user of the mobile computing device based upon a current context of the mobile computing device. The method further includes providing the results for display to a user of the mobile computing device.
US11675786B2
One embodiment includes a method for extracting data views. The method includes steps for receiving data from several data sources and identifying raw fields from the received data. The process further includes steps for mapping the identified raw fields to common fields by determining similarities between a raw field and each of the common fields, identifying a target common field based on the determined similarities, and mapping the raw field to the target common field. The process further includes steps for extracting views of the received data based on the mapping of the identified raw fields to common fields.
US11675782B2
A disparate data source aggregation system and methods are provided which may pull or retrieve talent data or features from disparate data sources, automatically correlate the data across the different data sources, build a self-adjusting system database that captures the talent data from the disparate data sources, and lets users search, query and build model insights on the aggregated data of the system database without human intervention. A method for disparate data source aggregation may include: extracting a first feature set having a first extracted feature and a second feature set having a second extracted feature; determining, if the first extracted feature of the first feature set matches the second extracted feature of the second feature set; and aggregating the first feature set with the second feature set if the first extracted feature of the first feature set matches the second extracted feature of the second feature set.
US11675773B2
A content management system may support a card engine to dynamically perform operations such as configuring content for display via a user interface and generating reports based on user behavior, account status, and business logic. In cooperation with a facts controller to provide facts that the card engine may access substantively in real time, a rules engine to provide constructs in the form of card definitions, and a development engine, the content management system may enable a content manager to effect changes to card and container definitions by providing or modifying rules and rulesets in the rules engine dynamically. Cards evaluated dynamically by the card engine may be transmitted to user equipment. In this way, the content manager may make content decisions in accordance with business logic and events occurring proximate to the user, thereby impacting the user experience and generating reports in a substantive and real-time fashion.
US11675765B2
A system and method including determining, for a specified target measure column of a first dataset including a plurality of records, the metadata of the first dataset, including a probability distribution for the specified target column and dimension scores for the dimensions for the first dataset conditioned on the specified target measure column, where the first dataset comprises a plurality of columns including the at least one target measure column and a plurality of non-numeric, dimension columns for the records of the first dataset; determining, for a subset of data of the first dataset based on one or more specified variables, dimension scores for the dimensions of the subset of data approximately derived from the determined metadata of the first dataset; and providing recommendations of top contributors based on the approximated dimension scores of dimensions of the subset of data.
US11675740B2
One embodiment of the present invention sets forth a technique for replicating a file within a network of servers. The technique includes determining one or more regional master servers included in a regional cluster of servers and causing each regional master server to retrieve a file from a fill source. The technique further includes, for at least one local cluster of servers included in the regional cluster of servers, determining one or more local master servers included in the at least one local cluster of servers, and causing each local master server to retrieve the file from one of the one or more regional master servers.
US11675726B2
A method including creating a first bus guide and a second bus guide of a plurality of bus guides for an integrated circuit is disclosed. The method includes routing the first bus guide and the second bus guide through a plurality of layout blocks of the integrated circuit. The method includes annotating the first bus guide or the second bus guide to identify a plurality of areas for placing a plurality of repeaters within the first bus guide or the second bus guide. The method includes, based on the annotated first bus guide and the second bus guide, generating, by at least one processor, a plurality of guidance directories corresponding to a plurality of routes through the plurality of layout blocks for placing the plurality of repeaters at the plurality of layout blocks on the identified plurality of areas on the first bus guide or the second bus guide.
US11675715B2
Methods and apparatus for implementing a low-pin count architecture with priority message arbitration and delivery. The architecture includes a hardware-based message arbitration unit (MAU) including a plurality of priority queues, each having a respective priority level, implemented on a first component, such as a processor and/or System on a Chip (SoC). The first component is communicatively coupled to a second component via a low-pin count link such as an I2C bus. The MAU receives prioritized messages from clients and enqueues the messages in priority queues based on their priority levels. An arbiter selects messages to transmit over the low-pin count link from the priority queues. The MAU further may abort transmission of a message in favor of transmission of a higher-priority message to guarantee a transmit latency. Under one implementation, the components are a processor and a PMIC configured to communicate with a USB Type-C power source and meet timing requirements defined by a USB Power Delivery Specification.
US11675712B2
Embodiments of the present disclosure relate to a memory system, a memory controller, and an operation method of a memory system. According to embodiments of the present disclosure, the memory system, before updating a mapping table which includes mapping information between logical addresses and physical addresses, may assign a portion of a map cache area for caching a plurality of map segments in the mapping table as a map update area for updating the mapping table, and may load a subset of the plurality of map segments to the map update area. Accordingly, it is possible to quickly update a mapping table and to optimize update performance for a mapping table within a limit that guarantees caching performance to a predetermined level or higher.
US11675706B2
A programmable switch includes at least one memory configured to store a cache directory for a distributed cache, and circuitry configured to receive a cache line request from a client device to obtain a cache line. The cache directory is updated based on the received cache line request, and the cache line request is sent to a memory device to obtain the requested cache line. An indication of the cache directory update is sent to a controller for the distributed cache to update a global cache directory. In one aspect, the controller sends at least one additional indication of the update to at least one other programmable switch to update at least one backup cache directory stored at the at least one other programmable switch.
US11675702B1
Prefetch circuitry generates prefetch requests to prefetch information to a cache, based on prediction information trained using a training table comprising training entries. A given training entry associates a program counter indication associated with a trigger training memory access, a region indication indicative of a memory address region comprising a target address specified by the trigger training memory access, corresponding prediction information trained based on subsequent training memory access requests specifying target addresses in the same region as the target address of the trigger training memory access, and first and second replacement policy information. The first replacement policy information is used for replacement of an entry with another entry for the same program counter indication but different region. The second replacement policy information is used for replacement of an entry with another entry for a different program counter indication. This helps to increase prediction performance and reduce power consumption.
US11675699B2
A data storage device may include a storage including a plurality of memory blocks composed of system memory blocks for storing system data and user memory blocks for storing user data; and a controller configured to: control exchange of the system and user data with the storage in response to a request of a host device; and determine whether a start condition for performing a garbage collection operation on the storage is satisfied, based on a number of bad memory blocks in the plurality of memory blocks.
US11675690B2
In some implementations, an analytics platform may process a data lineage configuration to identify one or more data sources storing one or more data sets associated with a data analytics use case and identify one or more data relations associated with the one or more data sets. The analytics platform may parse a source code template defining one or more functions to build a data mart and a data pipeline that enables the data analytics use case. The source code template may include one or more tokens to specify elements that define the one or more data sources, data sets, and data relations identified in the data lineage configuration. The analytics platform may automatically generate source code that is executable to build a data mart and a data pipeline to enable the data analytics use case based on the data lineage configuration and the source code template.
US11675687B2
Described systems and techniques enable prediction of a state of an application at a future time, with high levels of accuracy and specificity. Accordingly, operators may be provided with sufficient warning to avert poor user experiences. Unsupervised machine learning techniques may be used to characterize current states of applications and underlying components in a standardized manner. The resulting data effectively provides labelled training data that may then be used by supervised machine learning algorithms to build state prediction models. Resulting state prediction models may then be deployed and used to predict an application state of an application at a specified future time.
US11675685B2
A preventive switchover from a primary controller to a secondary controller even before the primary controller fails system and method includes a server that collects log files comprising operational parameters of the primary controller from the primary controller in real-time. The server determines abnormal patterns or signatures in the operational parameters of the primary controller by comparing the operational parameters with reference patterns or signatures. The reference patterns or signatures are generated by training one or more Artificial Intelligence (AI) based models. After determining the abnormal patterns or signatures, the server predicts events that will lead to switchover from the primary controller to the secondary controller. Thereafter, the server provides a signal to the primary controller to perform preventive switchover to the secondary controller before the primary controller fails.
US11675680B2
A computing system initialization system includes a BIOS processing system coupled to a computing device via a first I/O access connection, to a BIOS memory system via a second I/O access connection that is a relatively higher speed I/O access connection than the first I/O connection, and to a BIOS module. The BIOS processing system retrieves device data from the computing device via the first I/O access connection, stores the device data in the BIOS memory system via the second I/O access connection, and performs initialization operations subsequent to storing the device data in the BIOS memory system. During the initialization operations, the BIOS processing determines that the BIOS module requires the device data and, in response, retrieves the device data from the BIOS memory system via the second I/O access connection, and provides the device data that was retrieved from the BIOS memory system to the BIOS module.
US11675677B2
In some embodiments, a method receives a share of a signature of a decision block from at least a portion of the plurality of replicas. The share of the signature being generated when a respective replica signs the decision block and the decision block includes a set of requests from a client for a service. A combined signature is created based on the share of the signature block from at least the portion of the plurality of replicas. The method broadcasts a message that includes the combined signature to the plurality of replicas. The plurality of replicas use the combined signature to determine whether to process the decision block for the service.
US11675674B2
An example method of restoring a database includes obtaining information about backup data of a database from a source storage separate from a compute infrastructure. The information includes a list of data blocks of a file, transferring the data blocks on the list from the source storage to a local storage on the compute infrastructure, and tracking which data blocks of the file have been transferred from the source storage to the local storage concurrently when transferring the data blocks.
US11675671B1
A source node creates a file and a grouping tag for the file. The source node stores the grouping tag in a location in metadata for the file. When preparing for replication, the source node retrieves the grouping tag from the location in the metadata. If the legacy location in the metadata includes any value which was stored after the most recent replication involving the file, and the size of the legacy location in the metadata was changed after the most recent replication involving the file, then the system enables a destination node to store the grouping tag in the legacy location in the metadata by sending records comprising a request to replace a record stored at the legacy location in the metadata with a larger record, and combining the grouping tag with any value which changed the size of the metadata after a most recent replication involving the file.
US11675666B2
A server system comprising: a respective storage area for each of a plurality of respective parties including a first party and a second party, and a manager function for managing the storage. Each of at least some of the storage areas stores a primary instance of one or more data resources of the respective party. The manager function is configured so as, in response to the second party forming a relationship with one of the resources of the first party, to establish a secondary copy of that one of the resources of the first party in the respective storage area of the second party. In the secondary copy, the manager function also includes personal metadata describing one or more attributes of the relationship between the second party and the resource.
US11675653B2
Systems and methods are described identify a database metric value associated with a database instance storing a dataset associated with a user system. A database issue is detected in view of a determination that the database metric value satisfies a condition. In response to satisfaction of the condition, a set of user action metrics associated with the user system is collected from one or more data monitoring systems. At least one notification communication is generated including at least a portion of the set of user action metrics and information identifying the database issue. The at least one notification communication is transmitted to a remediation execution system configured to execute, using the at least a portion of the set of user action metrics and information identifying the database issue, a remedial action in response to the database issue.
US11675649B2
The present application discloses a fault prediction method, apparatus, and a storage medium, and relates to fields of cloud computing and fault processing. An embodiment includes acquiring a fault alarm request, wherein the fault alarm request is obtained by at least two fault triggering parameters of a fault generated by cloud operation, a hidden danger generated by cloud operation, and a change generated by terminal operation at a user level; analyzing the fault alarm request, to obtain at least two fault triggering parameters of the fault, the hidden danger, and the change; establishing an association between the at least two fault triggering parameters of the fault, the hidden danger, and the change, to obtain an association result; and predicting a fault causing the fault alarm request according to the association result, to obtain a fault prediction result.
US11675641B2
A failure prediction system is provided. The system includes a model-based signature generator generating feature vectors from individual attributes of multi-variate time series data based on sequence importance and attribute importance. The system further includes a knowledge database storing feature vectors corresponding to a set of different failure types. The system also includes a set of similarity detectors. Each detect any of the feature vectors generated by the model-based signature generator that are similar to any of the feature vectors corresponding to a respective one of the different failure types stored in the knowledge database based on a similarity threshold and output the respective one of the different failure types and a likely time period when the respective one of the different failure types will occur.
US11675639B2
A streaming platform reader includes: a reader thread configured to retrieve messages from a plurality of partitions of a streaming platform, wherein each message in the plurality of partitions is associated with a unique identifier; a plurality of queues coupled to the reader thread configured to store messages or an end of partition signal from the reader thread, wherein each queue includes a first position that stores the earliest message stored by a queue; an extraction thread controlled by gate control logic that: compares the identifiers of all of the messages in the first positions of the queues of the plurality of queues, and forwards, to a pool of queues associated with a pool of processing threads, the message content of the message associated with the earliest identifier; and wherein the gate control logic blocks the extraction thread unless each of the queues contains a message or an end of partition signal.
US11675637B2
Systems, methods, and devices for improved routing operations in a network computing environment. A system includes a virtual customer edge router and a host routed overlay comprising a plurality of host virtual machines. The system includes a routed uplink from the virtual customer edge router to one or more of the plurality of leaf nodes. The system is such that the virtual customer edge router is configured to provide localized integrated routing and bridging (TRB) service for the plurality of host virtual machines of the host routed overlay.
US11675634B2
A method includes identifying a first event that has been at least partly performed, wherein the first event comprises an element of a sequence of events, and the first event comprises performance of a first computing function, predicting a second event expected to occur next in the sequence after completion of the first event, and the second event comprises performance of a second computing function, predicting a start time of the second event, based on information about the second event, identifying a particular container capable of implementing the second computing function associated with the second event, predicting a start time for start-up of the container, starting up the container, and completing start-up of the container prior to receipt of a request for the second computing function to be performed by the container, wherein the container is ready to perform the second computing function immediately after start-up has been completed.
US11675630B2
Methods, apparatus, systems and articles of manufacture are disclosed to configure heterogenous components in an accelerator. An example apparatus includes a graph compiler to identify a workload node in a workload and generate a selector for the workload node, and the selector to identify an input condition and an output condition of a compute building block, wherein the graph compiler is to, in response to obtaining the identified input condition and output condition from the selector, map the workload node to the compute building block.
US11675629B2
Methods, apparatus, systems and articles of manufacture to store and access multi-dimensional data are disclosed. An example apparatus includes a memory; a memory allocator to allocate part of the memory for storage of a multi-dimensional data object; and a storage element organizer to: separate the multi-dimensional data into storage elements; store the storage elements in the memory, the stored storage elements being selectively executable; store starting memory address locations for the storage elements in an array in the memory, the array to facilitate selectable access of data of the stored elements; store a pointer for the array into the memory.
US11675620B2
A disclosed example method to automate deployment of a software defined data center includes generating, by executing an instruction with at least one processor, a task list based on tasks provided in an automation plan to deploy the software defined data center; determining, by executing an instruction with the at least one processor, dependencies between the tasks prior to executing the tasks; determining, by executing an instruction with the at least one processor, whether a resource that is to be an output of a first one of the tasks exists before execution of the first one of the tasks; removing, by executing an instruction with the at least one processor, the first one of the tasks from the task list when the resource exists before execution of the first one of the tasks; generating an execution schedule, by executing an instruction with the at least one processor, based on the dependencies and ones of the tasks remaining in the task list; and executing, with the at least one processor, the ones of the tasks based on the execution schedule to deploy the software defined data center.
US11675617B2
Method, computer program product, and system to prioritize the execution of processing task requests in a task request queue, where the processing task requests are related to an environment. The method includes adding processing task requests to a task request queue in response to the detection of predefined actions in an environment. The method also includes adding additional processing task requests or adjusting a priority level of not yet completed task requests in the task request queue, in response to detecting subsequent predefined actions in the environment.
US11675616B2
Methods and apparatuses for scheduling tasks with a job scheduler are disclosed. In one embodiment, the method comprises: tracking a number of active tasks for each key of a plurality of keys; writing, by a scheduler, a query to identify a next scheduled task among a plurality of scheduled tasks ordered by time in a task queue, the query having an index that excludes tasks associated with a list of one or more keys of the plurality of keys that have a count of active tasks greater than a first limit associated with each key; querying, by a scheduler, the task queue using the query to identify the next scheduled task among the plurality of scheduled tasks, the next scheduled task being associated with a key not excluded by the query; and executing the next scheduled task.
US11675614B2
Standardized model packaging and deployment, including: generating a model package comprising: model definition data for a model; function code facilitating execution of the model; and at least one interface for at least one operating system.
US11675611B2
A system may include multiple computing nodes, each including a hypervisor, a controller virtual machine and multiple virtual machines. The hypervisor may include a host agent configured to start a service and determine whether a performance of the service has met a criteria. If the performance of the service has met the criteria, the hypervisor may further determine whether the service has any pending critical operations, and if no critical operations are pending, stop the service. In some examples, each service may create a process configured to monitor the performance of the service. Examples of the performance of the service may include memory utilization and the service response time.
US11675608B2
Examples of multi-user configuration are disclosed. An example method includes, at an electronic device: receiving a request; and in response to the request: if the voice input does not match a voice profile associated with an account associated with the electronic device: causing output of first information based on the request using a first account associated with the electronic device; if a setting of the electronic device has a first state, causing update of account data of the first account based on the request; and if the setting has a second state, forgoing causing update of the account data; and if the voice input matches a voice profile associated with an account associated with the electronic device: causing output of the first information using the account associated with the matching voice profile; and causing update of account data of the account based on the request.
US11675600B2
Apparatuses, methods and storage medium associated with multi-phase/level boot technology, are disclosed herein. In embodiments, a method may include resuming an initial execution image of a computing platform from persistent storage to execute an initial task; and subsequently, resuming a full execution image of the computing platform from the persistent storage to execute one of a plurality of operational tasks. Other embodiments are also described and claimed.
US11675594B2
Embodiments of instructions are detailed herein including one or more of 1) a branch fence instruction, prefix, or variants (BFENCE); 2) a predictor fence instruction, prefix, or variants (PFENCE); 3) an exception fence instruction, prefix, or variants (EFENCE); 4) an address computation fence instruction, prefix, or variants (AFENCE); 5) a register fence instruction, prefix, or variants (RFENCE); and, additionally, modes that apply the above semantics to some or all ordinary instructions.
US11675592B2
An instruction is executed to perform a query function. The executing includes obtaining information relating to a selected model of a processor. The information includes at least one model-dependent data attribute of the selected model of the processor. The information is placed in a selected location for use by at least one application in performing one or more functions.
US11675588B2
A reconfigurable compute fabric can include multiple nodes, and each node can include multiple tiles with respective processing and storage elements. A first tile in a first node can include a processor with a processor output and a first register network configured to receive information from the processor output and information from one or more of the multiple other tiles in the first node. In response to an output instruction and a delay instruction, the register network can provide an output signal to one of the multiple other tiles in the first node. Based on the output instruction, the output signal can include one or the other of the information from the processor output and the information from one or more of the multiple other tiles in the first node. A timing characteristic of the output signal can depend on the delay instruction.
US11675578B2
A method includes receiving, by a processing device, meta-operator generation data, the meta-operator generation data comprising an identifier of an operator of a group of operators to be installed on a containerized computing services platform, determining, by the processing device, that the group of operators is complete, and responsive to determining that the group of operators is complete, generating, by the processing device in view of the meta-operator generation data, a meta-operator comprising instructions for managing installation of the group of operators.
US11675573B2
An embodiment includes analyzing data associated with an original flow graph comprising a plurality of operators of a stream computing application, including identifying a secure network connection between a first operator and a second operator that uses encryption. The embodiment fuses the first operator with the second operator such that a first logical function of the first operator is combined with a second logical function of the second operator. The embodiment then generates a modified flow graph as a modification of the original flow graph that combines the first operator and the second operator and lacks encryption between the first operator and the second operator.
US11675570B2
In one embodiment, a method for developing a virtual programmable logic controller (PLC) application using a graphical user interface (GUI) is disclosed. The method including receiving, from a first portion of the GUI representing a tool box, a first selection of a first object from a set of objects represented in the GUI, wherein each of the set of objects performs a respective function. The method also includes inserting, into a horizontal section of a second portion of the GUI representing the virtual PLC application, the first object, wherein the horizontal section includes a second object that executes simultaneously as the first object in the horizontal section. The method also includes compiling code implementing the first object and the second object to generate the virtual PLC application, and adding a shortcut of the virtual PLC application to a virtual tray of an operating system.
US11675566B2
The present disclosure is generally related to systems and methods of rendering visual components on applications. At least one action-inventory can indicate to render a user interface component. A data processing system can identify a request from an input audio signal from a client device. The client device can display a first application in a foreground process. The data processing system can select an action-inventory to execute the action corresponding to the request by a second application. The data processing system can generate an action data structure using the action-inventory to provide to the second application. The data processing system can determine that an output of the second application is authorized to be presented with the first application. The data processing system can display, on the client device, a user interface component from the second application with the first application.
US11675564B2
In an example implementation, a method may involve sending a message that arranges a media playback system into a pre-defined state, wherein a first playback device is in a first zone having a first zone name, a second playback device is in a second zone having a second zone name, and a queue has a particular set of media items. The method may also involve detecting a trigger indicating a request to reset the media playback system. The method may further involve causing the media playback system to revert to the pre-defined state, wherein reverting may include assigning the first zone name to the first zone and joining the first playback device to the first zone, assigning the second zone name to the second zone and joining the second playback device to the second zone, and configuring the queue with the particular set of media items.
US11675561B2
The present disclosure relates to a display apparatus, especially having a display panel generating sounds. A display apparatus according to the present disclosure includes: a display module; a back cover at a rear surface of the display module; a depression recessed into the back cover from a first surface of the back cover with a first width and a first depth; a penetration through from a second surface of the back cover to the depression with a second width smaller than the first width and a second depth corresponding to a difference between a thickness of the back cover and the first depth; and a first piezo vibration unit disposed at a stepped portion between the penetration and the depression.
US11675555B1
A printer for printing on a long sheet includes a print data divider and a verification processor. The print data divider outputs a plurality of segments of divided print data divided at the boundary of areas from standard print data containing print contents in each of the areas obtained by dividing a standard sheet into a plurality of the areas. The verification processor compares the size of the long sheet with the size of the area included in the standard sheet and rotates the divided print data if it is determined from a result of the comparison that the rotation is necessary.
US11675552B1
A printing system that operates responsive to data bearing records enables providers of printable content records to have printed copies of the content records produced and delivered to designated record recipients. Central system circuitry (22) is in operative connection with at least one data store (24), and includes record data corresponding to the content records and records regarding printing operations, the locations thereof and other record data. The central system circuitry operates to cause printed copies of the content records produced by respective printing operations located in geographic proximity to respective record recipients. The exemplary system further enables a content record provider to operate the system to host content records so that printed copies of the records may be obtained by record requesters located in widely dispersed geographic locations.
US11675550B2
An information processing apparatus includes: a display controller; a letter-size setting section that sets a letter size of a letter string over a plurality of lines which has been entered through an edit screen; and a print controller that prints the letter string in the letter size set by the letter-size setting section. The letter-size setting section can differently set letter sizes of the letter string. When a line feed operation is performed at a head or end of an n-th line through the edit screen, a letter size of the n-th line preset in accordance with a user's designation, the letter-size setting section sets a letter size of one of the n-th line and an (n+1)-th line after the line feed operation so that a length of letter string over the plurality of lines is equal to or shorter than a length of the printable area.
US11675548B2
A printing apparatus includes a storage that stores a table that associates a type of a print medium with an output profile, a memory device that stores a set of instructions, and at least one processor that executes the set of instructions to determine whether or not an output profile has been designated by a print job to be processed for a page included in the print job, perform color conversion for the page using the output profile designated by the print job without referring to the table and printing in a case where it is determined the output profile has been designated by the print job, and referring to the table, perform color conversion for the page using the output profile associated with a type of a print medium and printing in a case where it is determined the output profile has not been designated by the print job.
US11675538B2
An example apparatus includes a PIM capable device having an array of memory cells and sensing circuitry coupled to the array, where the sensing circuitry includes a sense amplifier and a compute component. The PIM capable device includes timing circuitry selectably coupled to the sensing circuitry. The timing circuitry is configured to control timing of performance of operations performed using the sensing circuitry. The PIM capable device also includes a sequencer selectably coupled to the timing circuitry. The sequencer is configured to coordinate compute operations. The apparatus also includes a source external to the PIM capable device. The sequencer is configured to receive a command instruction set from the source to initiate performance of a compute operation.
US11675517B2
A system and method for repartitioning data in a distributed network. The method may include executing, by one or more processors, a first pass of a data set from a plurality of first sources to a plurality of first sinks, each first sink collecting data from one or more of the first sources, and executing, by the one or more processors, a second pass of the data set from a plurality of second sources to a plurality of second sinks, each one of the plurality of first sinks corresponding to one of the plurality of second sources, and each second sink collecting data from one or more of the second sources. Executing the first and second passes causes the data set to be repartitioned such that one or more second sinks collect data that originated from two or more of the first sources.
US11675515B2
An intelligent data partitioning engine processes instructions to monitor an input queue of a cluster computing framework processing on a distributed computing system. The intelligent data partitioning engine calculates data requirements for processing of one or more program files in the input queue and determines, based on a block size and available processing resources of a plurality of nodes of the distributed computing system, a number of data partitions. Based on the data partitions, the intelligent data partitioning engine triggers execution of the one or more program files by the cluster computing framework, where the cluster computing framework is configured based on the block size and the number of data partitions and updates the data requirements for processing of the one or more program files based on feedback from the cluster computing framework corresponding to one or more previous processing runs of the one or more program files.
US11675511B2
An example memory sub-system includes a memory device and a processing device, operatively coupled to the memory device. The processing device is configured to perform operations comprising assigning a plurality of data streams to a block family comprising a plurality of blocks of a memory device; responsive to programming a first block associated with a first data stream of the plurality of data streams, associating the first block with the block family; and responsive to programming a second block associated with a second data stream of the plurality of data streams, associating the second block with the block family.
US11675502B1
A method for execution by a computing device of a storage network for transferring data includes detecting a shutdown associated with a local flash memory of the storage network. The method further includes determining whether to transfer encoded data slices stored in the local flash memory, wherein a plurality of data segments are dispersed storage error encoded in accordance with distributed data storage parameters to produce pluralities of sets of encoded data slices that include the encoded data slices. When determining to transfer, the method includes determining a group of encoded data slices stored in the local flash memory to transfer, determining at least one storage location for storage of the group of encoded data slices, transferring the group of encoded data slices to the at least one storage location and outputting a transfer message indicating that the group of encoded data slices has been transferred.
US11675497B2
Embodiments of the present disclosure relate to a method, an electronic device, and a computer program product for managing a storage system. The method includes: determining multiple storage units provided by multiple storage devices, each storage unit in the multiple storage units having a storage space allocated from a first number of storage devices among the multiple storage devices; dividing the multiple storage units into at least one storage unit group based on a total number of the multiple storage devices and the first number, each storage unit group in the at least one storage unit group including a second number of storage units; and storing, based on a logical address of to-be-stored data, the to-be-stored data into the at least one storage unit group. Embodiments of the present disclosure can allocate storage resources more reasonably and thus improve the performance of a storage system for processing sequential data.
US11675493B2
A system and method for electronic collaboration including receiving, by a first digitizer of a first host, a mode switch notification, based on the mode switch notification, changing a mode of the first host to a collaborative mode, sending local content, by the first host, displayed on a multipurpose display screen of the first host to one or more collaboration hosts, receiving, by the first host, published content from the collaboration hosts, displaying the published content and the local content concurrently on the multipurpose display screen of the first host, and updating the multipurpose display screen with updated local content and received published content.
US11675491B2
Systems and processes for user configurable task triggers are provided. In one example, at least one user input, including a selection of at least one condition of a plurality of conditions and a selection of at least one task of a plurality of tasks, is received. Stored context data corresponding to an electronic device is received. A determination is whether the stored context data indicates an occurrence of the at least one selected condition. In response to determining that the stored context data indicates an occurrence of the at least one selected condition, the at least one selected task associated with the at least one selected condition is performed.
US11675490B2
A management system for managing setting information of an observation system includes: one or more non-transitory computer-readable media that include an instruction; and one or more processors that execute the instruction. The instruction is configured to cause the one or more processors to perform an operation. The operation includes detecting a use status of a setting indicated by the setting information, and updating, in accordance with the detected use status, evaluation information indicating an evaluation pertaining to the setting, the evaluation information being managed so as to be associated with the setting information.
US11675483B2
A device's display control includes changing a second image that is in an invisible state to a visible state moving the second image changed into the visible state in a display area, and switching an image displayed in the display area from a first image to the second image.
US11675477B2
Example implementations include a method, apparatus and computer-readable medium for managing security events via a graphical user interface (GUI), comprising receiving an indication of a first security event occurring in an environment, determining a priority value of the first security event, and creating a first identifier of the first security event, wherein the first identifier is a visual icon of a given shape. The implementations further include assigning a size and color to the first identifier of the first security event based on the priority value and generating, for display on the GUI, the first identifier of the first security event, wherein the GUI is configured to display identifiers of one or more security events in a selectable layout of a plurality of selectable layouts, wherein selection of the first identifier generates a panel of selectable actions that can be executed to address the first security event.
US11675476B2
Techniques for displaying widgets are described. In some examples, while displaying a first plurality of application icons, an electronic device detects a first user input. In response to detecting the first user input, in accordance with a determination that the first user input includes movement in a first direction, the electronic device ceases display of the first plurality of application icons, and displays a second plurality of application icons. In response to detecting the first user input, in accordance with a determination that the first user input includes movement in a second direction, the electronic device modifies display of the first plurality of application icons to change a distance between a first application icon and a second application icon of the first plurality of application icons, and concurrently displays the modified first plurality of application icons and the first set of one or more user interface elements.
US11675474B2
There is provided an image archiving method for use with a writing target, comprising the steps of receiving a series of captured images of the writing target, detecting difference between first and second candidate received images separated by a predetermined period of time, where additive differences are indicative of writing and subtractive differences are indicative of erasure; upon detecting subtractive difference, temporarily retaining a last candidate image captured prior to the detection, and detecting whether the subtractive difference relative to the retained image exceeds a subtraction threshold amount; and if so, then storing the retained image.
US11675473B1
Systems and methods are described for providing a user interface for display of metric data. A plurality of graphical controls can be displayed in the user interface to modify the generation of the metric data. For example, a first graphical control may enable a user to specify a processing criterion and a second graphical control may enable a user to specify an aggregation criterion and a grouping criterion. Based on the aggregation criterion, aggregated data can be generated from data processed using the processing criterion. The grouping criterion can be used to extract metric data from the aggregated data and a preview of the metric data can be displayed in the user interface.
US11675462B2
A process includes receiving an associated input signal via a receiver electrode of a sensor array, the associated input signal indicative of an associated mutual capacitance of the receiver electrode; adding a balancing signal to the associated input signal to generate a balanced input signal at least partially responsive to a number of sensor nodes at the receiver electrode; generating a voltage signal indicative of the associated mutual capacitance of the receiver electrode at least partially responsive to a balanced input signal; and generating a digital value representative of the voltage signal.
US11675460B2
A control circuit of an in-cell touch panel device associates a touch position P1 and a touch position P2 with each other when a refresh rate is F1 and a touch-to-touch distance d1 between the successive touch positions P1 and P2 is equal to or less than a determination distance D1. The control circuit associates a touch position P3 and a touch position P4 with each other when a touch-to-touch distance d2 between the touch position P3 detected last in a period in which the refresh rate is F2 lower than F1 and the touch position P4 detected first since a period in which the refresh rate is F1 starts is equal to or less than a determination distance D2 greater than the determination distance D1.
US11675456B2
According to an aspect, a display apparatus includes: a substrate; a plurality of pixel electrodes; a plurality of detection electrodes arranged in a matrix in a display area of the substrate; a plurality of detection electrode lines coupled to the respective detection electrodes; a plurality of first electrodes provided in the same layer as the detection electrodes or the detection electrode lines and extending in a first direction; a plurality of switching elements coupled to the respective pixel electrodes; a plurality of signal lines coupled to the switching elements and extending in a second direction crossing the first direction; a coupling member provided in a peripheral area outside the display area and configured to couple ends of the first electrodes to each other; and a drive circuit configured to output a first drive signal in a first sensing period in which an electromagnetic induction method is used.
US11675453B2
A touch display device in which routing lines are formed to have the same resistance value. Routing lines connected to touch electrodes in a non-active area and display signal links electrically connected to a light-emitting element are formed in different shapes from each other, and the lengths of at least one of zigzag patterns of the routing lines disposed in the non-active area and single-line regions are formed differently.
US11675447B2
An active pen includes an integrated circuit that transmits a downlink signal through a first electrode and receives an uplink signal through a second electrode different from the first electrode. The active pen includes a stop filter inserted between the second electrode and the integrated circuit. The integrated circuit, in operation, performs transmission of the downlink signal and the reception of the uplink signal at the same time.
US11675442B2
An image processing method and a flexible-screen terminal are provided. The method includes: receiving a first input by a flexible-screen terminal user, the first input being used for bending the flexible-screen terminal; in response to the first input, displaying a number N of images in a first display area of the flexible-screen terminal and displaying an operational control zone in a second display area of the flexible-screen terminal; receiving a second input by the user, the second input being used for selecting a number M of target images from the number N of images; in response to the second input, displaying the number M of target images selected by the second input in the operational control zone; displaying text information of the number M of target images in the first display area.
US11675438B2
A display device includes a display panel, a bracket disposed on a first surface of the display panel, and a first vibrating device disposed between the first surface of the display panel and a first surface of the bracket which faces the first surface of the display panel. The first vibrating device is configured to output a first sound and provide a haptic feedback by vibrating the display panel and the bracket.
US11675435B2
Apparatus for an electronic percussion system is provided, comprising: a plurality of sensors (12, 14, 16, 18); attaching means (10) for attaching the sensors to the hand and locating the sensors each at a respective predetermined location thereon, wherein each of the sensors is configured to send information for receipt by a determining means in response to impact of the sensor on a contact surface, wherein the attaching means and the sensors are together configured so that such information enables the determining means to distinguish each of the gestures from each other of the gestures. Each predetermined gesture is mapped to a respective sample, and performing of the gesture causes playing of the respective sample. The gestures may include a finger clicking action, a chest slap and a hand clap. There is also provided a related method of determining a percussion gesture.
US11675433B2
A picture generation unit emits a light field. A mirror reflects the light field toward a windshield of a motor vehicle such that the light field is reflected off of the windshield and is visible to the driver as a virtual image. An infrared emitter transmits infrared energy through the mirror such that the infrared energy is substantially co-axial with the light field, and such that the infrared energy is reflected off of the windshield toward the human driver. An infrared camera captures infrared images based on the transmitted infrared energy reflected off of the human driver and received by the infrared camera. Eye tracking is performed based on the captured infrared images. The infrared energy is transmitted at a higher power level at a beginning of the eye tracking than after the beginning of the eye tracking.
US11675422B2
A device includes a display and an internal strap coupled to the display, the internal strap being adjustable to secure the device to the user. The device also includes a deformable material coupled to a portion of the internal strap and configured to contact the user when the device is secured to the user and a backing layer disposed against the deformable material, the backing layer including an aperture therein. The device further includes a switch coupled to the backing layer and configured such that at least a portion of the switch is insertable in the aperture of the backing layer, wherein the deformable material is configured to deform when the device is secured to the user, thereby causing the switch to be positioned in a first position when the device is secured to the user and a second position when the device is removed from the user.
US11675411B2
Systems and methods are disclosed, including, in a storage system comprising control circuitry and a memory array having multiple groups of memory cells, storing a first physical-to-logical (P2L) data structure for a first physical area of a first group of memory cells in a second physical area of the first group of memory cells, such as when resuming operation from a low-power state, including an asynchronous power loss (APL). The first group of memory cells can include a super block of memory cells. A second P2L data structure for the second physical area of the first group of memory cells can be stored, such as in a metadata area of the second physical area and an address of the first P2L data structure can be stored in the second P2L data structure.
US11675404B2
A semiconductor device includes: a plurality of cores configured to receive power from a power supply; a plurality of power switch circuits provided for each core and configured to control the power supplied to the corresponding cores; a compare circuit configured to receive power from the power supply and compare output data of the plurality of cores; and a core voltage monitor circuit configured to monitor a voltage of a node that connects the power supply and the compare circuit.
US11675403B2
Based on a first signal, a first voltage output circuit outputs a first output voltage which is based on a first voltage or does not output the first output voltage. Based on a second signal, a second voltage output circuit outputs a second output voltage which is based on a second voltage or does not output the second output voltage. When a level of the first voltage is lower than a reference level, a voltage detector circuit outputs the first signal such that the first voltage output circuit does not output the first output voltage and outputs the second signal such that the second voltage output circuit outputs the second output voltage. The second voltage output circuit outputs the second output voltage such that the second output voltage has a level of the first output voltage when the level of the first voltage is the reference level.
US11675395B2
A display device includes: a display module including a first surface which displays an image and a second surface opposite to the first surface; a hinge disposed on the second surface of the display module; and a pair of supporting members connected to sides of the hinge and rotatable with respect to a pair of first rotation axes, respectively. The hinge includes: a base frame; a pair of hinge pins coupled to the base frame and providing a pair of second rotation axes, respectively, which are different from the pair of first rotation axes; and a pair of hinge barrels rotatably coupled to the pair of hinge pins, respectively.
US11675387B2
A shelter and a sheltering apparatus of adjusting an assembly angle are applied for an assembling display apparatus with a first display and a second display. The shelter includes a bridging component, a first top member and a second top member. The bridging component includes a first lateral member and a second lateral member. The first lateral member is detachably connected to the first display. The second lateral member is rotatably assembled with the first lateral member and detachably connected to the second display. The first top member is disposed on an upper end of the first lateral member. The second top member is disposed on an upper end of second lateral member, and partly overlapped with the first top member in a variable manner for matching relative rotation between the first lateral member and the second lateral member.
US11675386B2
Systems and methods for clock recovery are disclosed. The method comprises generating, by a first dynamic phase interpolator, a first center clock signal, and generating, by a second dynamic phase interpolator, a second center clock signal. The method further comprises outputting, by a static phase interpolator, an edge clock signal based on the first and second center clock signals.
US11675382B2
Methods of powering a radio that is mounted on a tower of a cellular base station are provided in which a direct current (“DC”) power signal is provided to the radio over a power cable and a voltage level of the output of the power supply is adjusted so as to provide a substantially constant voltage at a first end of the power cable that is remote from the power supply. Related cellular base stations and programmable power supplies are also provided.
US11675381B2
Methods of powering a radio that is mounted on a tower of a cellular base station are provided in which a direct current (“DC”) power signal is provided to the radio over a power cable and a voltage level of the output of the power supply is adjusted so as to provide a substantially constant voltage at a first end of the power cable that is remote from the power supply. Related cellular base stations and programmable power supplies are also provided.
US11675379B2
A Computational Digital Low Dropout (CDLDO) regulator is described that computes a required solution for regulating an output supply as opposed to traditional feedback controllers. The CDLDO regulator is Moore's Law friendly in that it can scale with technology nodes. For example, CDLDO regulator of some embodiments uses a digital approach to voltage regulation, which is orders of magnitude faster than traditional digital LDOs and enables regulation at GHz speeds, making fast dynamic DVFS a reality. The CDLDO also autonomously tunes out the effects of process-voltage-temperature (PVT) and other non-idealities making the settling time totally variation tolerant.
US11675377B2
A voltage regulator includes an operational amplifier that compares a feedback voltage that is proportional to an output voltage and a predetermined reference voltage that corresponds to a desired output voltage. The operational amplifier controls the conduction state of an output transistor according to the comparison. A detecting circuit monitors the operating state of the operational amplifier, and in the case that the operational amplifier is not operating, outputs a signal which causes the output transistor to be placed in a non-conductive state.
US11675374B2
A diagnostics system, for mass flow controller calibration, comprising a controller communicable coupled to a sensor(s) and a valve. The controller controls the valve based on a predetermined set point value and communication from the at least one sensor. The controller determines a number of set point value adjustments and compares results of a calibration operation and a set point value plus a tolerance value. The controller generates a notification message indicating at least one of the predetermined number of set point value adjustments and results of the comparing. The controller calibrates the mass flow controller based on, at least in part, one of a predetermined number of set point value adjustments, results of the comparison, and user input. The notification message can comprise temperature values, valve drive values, sensor flow rate values, gas flow hours, and a remaining number of set point adjustments based on a total fluid hours.
US11675352B2
A travel route determination system including: a route generating unit generating planned travel routes including work routes along which a work vehicle performs autonomous travel; a control unit capable of causing the work vehicle to perform autonomous travel along the planned travel routes; an information obtaining unit obtaining position information and orientation information on the work vehicle; and a determination unit determining an autonomous travel candidate route at which the work vehicle can start autonomous travel, before the work vehicle starts autonomous travel. The determination unit sets a candidate determination region based on the position information and orientation information on the work vehicle, and the determination unit determines, among the work routes, a work route in the candidate determination region as the autonomous travel candidate route.
US11675349B2
Techniques for providing a user interface for remote vehicle monitoring and/or control include presenting a digital representation of an environment and a vehicle as it traverses the environment on a first portion of a display and presenting on a second portion of the display a communication interface that is configured to provide communication with multiple people. The communication interface may enable communications between a remote operator and any number of occupants of the vehicle, other operators (e.g., other remote operators or in-vehicle operators), and/or people in an environment around the vehicle. The user interface may additionally include controls to adjust components of the vehicle, and the controls may be presented on a third portion of the display. Furthermore, the user interface may include a vehicle status interface that provides information associated with a current state of the vehicle.
US11675347B2
A method for remote monitoring of an industrial machine having a relay based or PLC based controller includes steps of providing a hardware interface module for directly interfacing with the relay based or PLC based controller of the industrial machine, directly interfacing the hardware interface module with the relay based or PLC based controller to identify occurrence of power cycles of the industrial machine, registering the hardware interface module through a portal accessible through a network, communicating the occurrence of the power cycles of the industrial machine detected with the hardware interface module to a database in operative communication with the portal and storing the occurrence of the power cycles within the database, and providing a user interface indicative of performance of the industrial machine based on the power cycles of the industrial machine detected with the hardware interface module and stored in the database.
US11675344B2
A method for generating a report regarding prioritizations of industrial automation devices in an industrial system may include determining a first score for each of the industrial automation devices. The first score represents a relative importance of each of the industrial automation devices. The method may also include determining a second score for each of one or more parts of each of the industrial automation devices. The second score represents a relative importance of each of the parts with respect to each other. The method may also include generating the report comprising the parts, the industrial automation devices, the first score for each of the industrial automation devices, the second score for each of the parts, or any combination thereof, wherein the report is organized according to the first score, the second score, or based on a combination of the first score and the second score.
US11675340B2
The present disclosure provides a system and a method for controlling a semiconductor manufacturing apparatus. The system includes an inspection unit capturing at least one image of a wafer, a sensor interface generating at least one input signal for a database server, and a control unit. The control unit includes a front-end subsystem, a calculation subsystem, and a message and tuning subsystem. The front-end subsystem receives the at least one input signal from the database server and performs a front-end process to generate a data signal. The calculation subsystem performs an artificial intelligence analytical process to determine, according to the data signal, whether damage marks have been caused by the semiconductor manufacturing apparatus and to generate an output signal. The message and tuning subsystem generates an alert signal and a feedback signal according to the output signal and transmits the alert signal to a user.
US11675334B2
Techniques regarding the synthesis of one or more polymers of a target polymer class are provided. For example, one or more embodiments described herein can comprise a system, which can comprise a memory that can store computer executable components. The system can also comprise a processor, operably coupled to the memory, and that can execute the computer executable components stored in the memory. The computer executable components can comprise a recommendation component that can generate a recommended chemical reactor control setting for inverse synthesis of a polymer based on a target polymer characteristic and reactor training data.
US11675320B2
A method for controlling equipment includes grouping a plurality of granular assets to form one or more general assets and generating models of the general assets based on the granular assets that form the general assets. Each model corresponds to a general asset and defines a relationship between resources produced by the general asset and resources consumed by the general asset. The method includes performing a first control process using the models of the general assets to determine a first allocation of resources among the general assets. The first allocation defines amounts of the resources to be consumed, produced, or stored by each of the general assets. The method includes operating the equipment to consume, produce, or store the resources in accordance with the first allocation.
US11675314B2
An electronic watch includes a navigation processor that perform navigation processing of causing a positioning processor to perform positioning processing, and calculating a distance to a destination based on current position information acquired by the positioning processing and destination position information, and also calculating a direction of the destination based on current position information, geomagnetism, and destination position information, and moreover causing a display unit to display the direction of the destination, and an operation device configured to case the navigation processor to start navigation processing when a predetermined operation is performed. The navigation processor performs, when the distance is longer than a preset threshold, the navigation processing at a first frequency during a predetermined time after predetermined operation is performed, and performs, when the distance is shorter than or equal to a preset threshold, the navigation processing at a second frequency higher than first frequency during the predetermined time.
US11675313B2
A timepiece mechanism includes a first energy source with a regulating member, a second independent energy source, a control member driven by the second energy source, and a blocking device controlled by the first energy source to block the second energy source and release it to allow the control member to be displaced by jumps powered by the second energy source. The blocking device includes first and second mobile parts kinematically interconnected, the first mobile part including a drive device, the second mobile part including a stopping device; a rotating drive member connected to the first energy source and cooperating with the drive device to displace the mobile parts, alternately in opposite directions; and a rotating blocking member connected to the second energy source and cooperating with the stopping device to be blocked by the second mobile part and released at the determined times by second mobile part movement.
US11675302B2
An image forming apparatus includes an image forming unit configured to form an image on a recording material based on first image data; a controller configured to control an image forming operation by the image forming unit; an acquisition unit configured to acquire property information related to a property of the recording material; a setting unit configured to set a control value to be used in the image forming operation; a reader configured to read an image formed on the recording material by the image forming unit and to output second image data; and a comparison unit configured to compare the first image data to the second image data, wherein the setting unit is further configured to set the control value based on a comparison result from the comparison unit and the property information.
US11675297B2
A fusing apparatus having a heating rotary member, a pressing rotary member, a flange, a fusing frame, a pressing member, and a plate. The heating rotary member heats a recording medium and includes a heater and a film that rotates. The pressing rotary member rotates to press an outer circumferential surface of the film and performs fusing of a toner image on the recording medium. The flange supports the heater. The fusing frame supports the pressing rotary member and has a positioning hole. The pressing member presses the flange. The plate includes a pressure receiving portion and an insertion portion. The pressure receiving portion is pressed by the pressing member and the insertion portion is inserted into a positioning hole and positioned in a first state. The insertion portion is removed from the positioning hole in a second state where the pressing member further contracts from the first state.
US11675296B2
An image forming apparatus includes a photoconductive drum, a developing roller, a sheet supplier, a fixing unit, and a controller. The fixing unit includes a heating roller, a first heater, a second heater, a first temperature sensor, and a second temperature sensor. The controller is configured to control the first heater so that a first detected-temperature becomes a target temperature at a central area, and control the second heater so that a second detected-temperature becomes a target temperature at an end area, and in accordance with a heat storage amount of the fixing unit stored by the heating of the second heater, change (i) a timing when supply of the sheet is started or (ii) the target temperature at the end area.
US11675290B2
A reusable media shell has a frame to hold sheets of media in an interior. A removable cap connects to the frame and its manipulation unveils the media for picking by an imaging device. The cap resides on a terminal end of the frame so the frame covers a majority of the media. A lift plate in the interior forces upward the sheets for picking. Two magnets on the frame magnetically secure the frame to magnets in a base of the imaging device and position the sheets in the base. Upstanding walls, a lid and bottom define the interior of the frame. Inserts attached to the walls allow adjustment to accommodate various sizes of the media.
US11675284B2
A toner for developing an electrostatic charge image contains toner particles containing at least one binder resin; the Mg element in an amount such that the net intensity of x-ray fluorescence from the Mg element in the toner is 0.10 kcps or more and 1.20 kcps or less; and at least one external additive including particles of a metal salt of a fatty acid.
US11675283B2
A magnetic carrier including a magnetic carrier particle having a magnetic core particle and a coating layer of an organosilicon polymer on a surface of the magnetic core particle, wherein the organosilicon polymer has the structure given by formula (T3) below; in 29Si-NMR measurement of the THF-insoluble matter of the organosilicon polymer, the ratio ST3 of the peak area for the structure given by formula (T3) to the total peak area for the organosilicon polymer is at least 0.05; and in the roughness curve measured on the magnetic carrier particle, the mean width (RSm) of the roughness curve elements of the magnetic carrier particle, and the ratio (σ/RSm) to this RSm of the standard deviation σ of the width of the region where one period of a protrusion and a recess occurs, are in prescribed ranges. R—Si(O1/2)3 (T3) R in the formula represents a prescribed substituent.
US11675281B2
A resonant amplitude grating mark has a periodic structure configured to scatter radiation incident on the mark. The scattering is mainly by coupling of the incident radiation to a waveguiding mode in the periodic structure. The effective refractive indexes and lengths of portions of the periodic structure are configured to provide an optical path length of the unit cell in the direction of periodicity that essentially equals an integer multiple of a wavelength present in the radiation. The effective refractive indexes and lengths of the portions are also configured to provide an optical path length of the second portion in the direction of periodicity that is selected from 0.30 to 0.49 of the wavelength present in the spectrum of the radiation.
US11675274B2
A method involving determining an etch bias for a pattern to be etched using an etch step of a patterning process based on an etch bias model, the etch bias model including a formula having a variable associated with a spatial property of the pattern or with an etch plasma species concentration of the etch step, and including a mathematical term including a natural exponential function to the power of a parameter that is fitted or based on an etch time of the etch step; and adjusting the patterning process based on the determined etch bias.
US11675273B2
Provided is a method of fabricating a micro-nano structure, including: forming a reflective layer and a fluid polymer layer sequentially on a surface of a substrate; pressurizing the substrate and a mask having a micro-nano pattern to attach to each other, squeezing the fluid polymer layer into a light-transmission area of the mask, and curing the fluid polymer layer; and exposing, wherein a fluid polymer in the light-transmission area is configured to sense light under a combined effect of a transmitted light and a light reflected by the reflective layer, such that a micro-nano structure is obtained. The method solves the problem of limited diffraction, improves the processing resolution by reducing the transmission loss of evanescent waves through reflective light field enhancement, and reduces the difficulty and cost of mask processing and pattern defects by using shallow pressurizing in combination with exposure.
US11675272B2
Supersonic gas jets are provided near the immediate focus of a lithography apparatus in order to deflect tin debris generated by the lithography process away from a scanner side and towards a debris collection device. The gas jets can be positioned in a variety of useful orientations, with adjustable gas flow velocity and gas density in order to prevent up to nearly 100% of the tin debris from migrating to the reticle on the scanner side.
US11675270B2
A resist underlayer film-forming composition for lithography including a copolymer having a structural unit of the following Formula (1) to Formula (3), a crosslinking agent, an organic acid catalyst, and a solvent: (wherein R1s are independently a hydrogen atom or a methyl group, R2 is a C1-3 alkylene group, A is a protective group, R3 is an organic group having a 4-membered ring to 7-membered ring lactone framework, adamantane framework, tricyclodecane framework or norbornane framework, R4 is a linear, branched or cyclic organic group having a carbon atom number of 1 to 12 in which at least one hydrogen atom is substituted with a fluoro group and which optionally has at least one hydroxy group as a substituent).
US11675269B2
There is provided a composition for forming an EUV resist overlayer film that is used in an EUV lithography process, that does not intermix with the EUV resist, that blocks unfavorable exposure light for EUV exposure, for example, UV light and DUV light and selectively transmits EUV light alone, and that can be developed with a developer after exposure. A composition for forming an EUV resist overlayer film used in an EUV lithography process including a resin containing a naphthalene ring in a main chain or in a side chain and a solvent, in which the resin may include a hydroxy group, a carboxy group, a sulfo group, or a monovalent organic group having at least one of these groups as a hydrophilic group.
US11675267B2
Disclosed is a resist composition including a compound represented by formula (I), a resin having an acid-labile group and an acid generator, the resin having an acid-labile group including at least one selected from the group consisting of a structural unit represented by formula (a1-1) and a structural unit represented by formula (a1-2):
US11675266B2
A patterning method includes providing a photosensitive composition on a material layer. The photosensitive composition includes one part by weight of a photo sensitive compound, 1.5 to 8 parts by weight of a resin, and 10 to 40 parts by weight of a diluent. The photosensitive compound has a chemical structure of The patterning method further includes removing the diluent in the photosensitive composition to form a photoresist layer, exposing the photoresist layer, and removing an exposed part of the photoresist layer to expose a part of the material layer.
US11675258B2
A wavelength conversion element includes a substrate, a counterweight member and a wavelength conversion layer. The substrate has a first surface and a second surface opposite to each other. The counterweight member is welded to the first surface of the substrate and protrudes from the first surface of the substrate. The wavelength conversion layer is disposed on the first surface or the second surface of the substrate. A projection device having the wavelength conversion element is also provided. The wavelength conversion element and the projection device provided by the invention have good reliability.
US11675256B2
An electronic device includes a fixing object member, a case including a fixing target portion that includes a wall portion having a dovetail-shaped engaging target portion and to which the fixing object member is fixed, and a closing member including a dovetail-shaped engagement portion configured to be brought into engagement with the dovetail-shaped engaging target portion and in which an inner circumferential surface thereof is brought into abutment with an outer circumferential surface of the fixing object member and an outer circumferential surface thereof is brought into abutment with an inner circumferential surface of the wall portion.
US11675255B2
A stabilizer folding structure and a handheld stabilizer. a stabilizer folding structure for rotationally connecting the motor base and the rocker arm such that the motor base and the rocker arm have an unfolded first state and a stored second state during relative rotation, comprising: an elastic member, applying An elastic force for abutting the motor base and the rocker arm; and a snap structure at a position where the motor base abuts the rocker arm, in the first state and the second state, The snap structure is engaged to restrict relative rotation of the motor base and the rocker arm. In other states, the snap structure is disengaged such that the motor base and the rocker arm are relatively rotatable. The folding structure of aspects of the invention facilitates the folding and storage of the stabilizer, and is convenient for the user to use.
US11675253B2
Provided is a technology enabling an imaging apparatus and an interchangeable lens to appropriately perform initialization processes. An interchangeable lens includes one or more lens-side processors configured to perform initialization of a plurality of lens-side elements. The one or more lens-side processors is further configured to transmit lens-side initialization element information indicating the plurality of lens-side elements to an imaging apparatus. The technology can be applied to, for example, a camera system including a detachable interchangeable lens and an imaging apparatus serving as a camera body side.
US11675246B2
A electronic method, includes receiving, by a graphene structure, a microwave signal. The microwave signal has a driving voltage level. The electronic method includes generating, by the graphene structure, optical photons based on the microvolts. The electronic method includes outputting, by the graphene structure, the optical photons.
US11675245B2
A coherent anti-stokes Raman scattering apparatus for imaging a sample includes an optical output; an optical source arranged to generate a first optical signal at a first wavelength; and a nonlinear element arranged to receive the first optical signal, where the nonlinear element is arranged to cause the first optical signal to undergo four-wave mixing on transmission through the nonlinear element such that a second optical signal at a second wavelength and a third optical signal at a third wavelength are generated, wherein an optical signal pair including two of the first, second and third optical signals is provided to the optical output for imaging the sample.
US11675243B2
An apparatus can include an electrochromic device. When using the apparatus, the electrochromic device can be switched from a first transmission state to a continuously graded state and maintained at continuously graded transmission state. An apparatus can include an active stack with a first transparent conductive layer, a second transparent conductive layer, an anodic electrochemical layer between the first and the second transparent conductive layers, and a cathodic electrochemical layer between the first and the second transparent conductive layers. The apparatus can further include a first bus bar electrically coupled to the first transparent conductive layer, a second bus bar electrically coupled to the second transparent conductive layer, where the second bus bar is generally non-parallel to the first bus bar, and a third bus bar electrically coupled to the first transparent conductive layer, where the third bus bar is generally parallel to the first bus bar.
US11675241B2
According to an aspect, a display device includes: a substrate; a display region; a peripheral region; signal lines; terminals; wires coupling the terminals and the signal lines in the peripheral region; and first and second metal layers in different layers perpendicularly to the substrate and an insulating film in the peripheral region. The peripheral region includes: a first wiring region, in which the wires are electrically coupled to the signal lines; a second wiring region between the first wiring region and the terminals, and in which at least one or more wires pass through the first and second metal layers; and a third wiring region between the first and second wiring regions, and in which the wires extend in a second direction intersecting the first direction. The third wiring region includes contacts coupling the first and second metal layers, and a virtual line connecting the contacts has a curved shape.
US11675227B2
The embodiments of the present disclosure relate to the field of display technologies, in particular to a metal wire grid polarizer and a manufacturing method thereof, and a display device. The metal wire grid polarizer includes a base substrate and a plurality of metal wire grids. The base substrate has a plurality of binding areas and a plurality of binding contraposition areas. The metal wire grids are disposed on the base substrate and arranged parallel to each other, and orthographic projections of the metal wire grids on the base substrate do not overlap with the binding areas or the binding contraposition areas, to avoid the metal wire grids from shielding light in the binding process, ensure the alignment process to proceed smoothly, and realize the binding accuracy.
US11675226B2
According to one embodiment, a display device includes a first substrate and a second substrate. The first substrate includes a first area including a display portion, a second area adjacent to the first area, and an organic film. The second substrate has a substrate end along a boundary between the first area and the second area, and overlaps the first area. The first substrate includes an alignment film located in the display portion, terminals located in the second area and connected to a signal source, and a first groove formed in the organic film and located between the substrate end of the second substrate and the terminals in the second area. The terminals are arranged in a first direction. The first groove extends in the first direction along the terminals.
US11675224B2
A display device that includes a display panel having a first substrate, a second substrate, and a light-emitting element layer. The light emitting layer is disposed between the first and second substrates and is configured to emit light in a direction toward the second substrate. A first sound generator is disposed on a first surface of the first substrate and is configured to vibrate the display panel to output a first sound. A first heat dissipation film is disposed between the first substrate and the first sound generator.
US11675218B2
A pair of spectacles having bio-sensors for detecting signals in contact with a user's head includes a front frame for lenses and a nose support device which is provided on the frame, the nose support device includes a mount made of an electrically non-conductive material and which can be removably connected to the frame, the mount having first and second nose support elements thereon, and which incorporate first and second nose sensors, formed from an electrically conductive material, capable of surface contact with corresponding laterally opposite zones of the nose. Each of the nose support elements is mounted on a respective support connected to the mount by a respective screw type element of a conductive material capable of electrical contact with the support, and each screw type element is capable of electrical contact with an electric circuit in the frame, the circuit being interposed between the frame and the mount.
US11675213B2
Systems and methods presented herein include light field displays configured to display primary autostereoscopic images and to simultaneously project (e.g., in real time, while displaying their own primary autostereoscopic images) light rays toward display devices (e.g., either reflective devices or cameras) to display secondary autostereoscopic images via the display devices. The light rays projected from the light field displays are controlled by a control system based at least in part on positional data (e.g., position, orientation, and/or movement) of the display devices, which may be determined by the control system based at least in part on detection of light rays that are reflected off the display devices.
US11675212B2
Systems and methods presented herein include light field displays configured to display primary autostereoscopic images and to simultaneously project light rays toward display devices (e.g., either reflective devices or cameras) to display secondary autostereoscopic images via the display devices. The light rays projected from the light field displays are controlled by a control system based at least in part on positional tracking data (e.g., position, orientation, and/or movement) of the display devices and/or of a portion of humans associated with the display devices, which may be detected via sensors of the display devices and/or via cameras disposed about a physical environment within which the display devices and the humans are located. Specifically, the control system calculates light field vector functions for light rays to be projected toward each individual display device based at least in part on positional tracking data for that particular display device and/or its associated human.
US11675209B2
In an optical unit with a shake correction function, a first flexible printed board and a second flexible printed board may extend in a +X direction perpendicular to an optical axis from a chassis surrounding the outer circumference side of a movable body and a gimbal structure. A cover may house the chassis and bend portions of the first flexible printed board and the second flexible printed board. The cover may include an image-side cover and an object-side cover, and the first flexible printed board and the second flexible printed board may include securing portions that are secured to the image-side cover. The object-side cover may include a first cover covering the chassis and a second cover covering the first flexible printed board and the second flexible printed board. The first cover may include a cover portion covering the coupling position of the chassis and the second cover.
US11675206B1
An optical assembly includes a first reflector and a second reflector. The first reflector is positioned to receive first light having a first polarization and provide the first light toward a first direction, and receive second light having the first polarization and provide the second light toward a second direction. The second reflector is positioned to receive the second light from the first reflector and reflect the second light back toward the first reflector. The first reflector receives light having a second polarization, having been reflected by the second reflector, and provide the light toward the first direction so that a first image corresponding to the first light and a second image corresponding to the second light are projected on a common image plane where at least a portion of the second image is located between two portions of the first image.
US11675204B2
A rigid-scope optical system includes: an image-formation optical system that causes an image in each of wavelength bands to be formed in a predetermined imaging device, the wavelength bands including a fluorescence wavelength band and a visible light wavelength band; and a color-separation-prism optical system having a dichroic film that separates an optical path of light to be imaged into an optical path of the visible light wavelength band and an optical path of the fluorescence wavelength band, in which the image-formation optical system causes the respective images to be formed in a fluorescence imaging device and a visible light imaging device, the fluorescence imaging device and the visible light imaging device being disposed to cause an amount of misalignment to correspond to a difference between an optical path length of fluorescence and an optical path length of visible light.
US11675203B2
A document, product, or package, such as a banknote, passport or the like comprises structures having dichroic effects that change color with viewing angle in both transmission and reflection. Such structures can be useful as security features that counter the ability to effectively use counterfeit documents, products, packages, etc.
US11675202B2
A reflective optical element includes a first, inner surface region for reflecting a first inner beam portion of a light beam impinging on the reflective optical element in order to form a first reflected light beam, and at least one second, outer surface region for reflecting at least one second outer beam portion of the impinging light beam for forming at least one second reflected light beam. The second surface region is designed to reduce a beam cross section of the second reflected light beam by comparison to the first reflected light beam such that the second reflected light beam extends along a superposition length completely within the first reflected light beam. In addition a beam guiding device has at least one such reflective optical element and an EUV-beam generating device has such a beam guiding device.
US11675189B2
The information display apparatus configured to display video information of a virtual image on a reflecting surface of conveyance includes: a display configured to display the video information; and a virtual image optical system configured to display a virtual image at a front of the conveyance by reflecting light emitted from the display by means of the reflecting surface. The virtual image optical system includes a concave mirror and an optical element. The optical element is arranged between the display and the concave mirror, and is configured to correct distortion of the virtual image obtained so as to correspond to a viewpoint position of a driver on a basis of a shape of the concave mirror and a shape of the optical element. The information display apparatus further includes a virtual image double image conversion reducer configured to reduce double image conversion of the virtual image.
US11675187B2
A method for designing an imaging optical system is a point-by-point calculation method based on characteristic light rays (FLR) and characteristic data points (FDP). The basic function of the point-by-point calculation method includes the following steps: according to the given object-image relationship, based on Fermat's principle and the law of retraction and reflection, calculating the propagation path of the FLR passing through a system and the FDP on each optical surface, to obtain a surface shape equation of each optical surface by fitting; and repeating the above process, to solve the surface shape equation of each optical surface one by one, and finally complete the design and solution of the entire imaging optical system.
US11675183B2
A security device that exhibits at least one dynamic response upon change of orientation of the security device with respect to gravity, wherein the security device includes a hollow capsule completely filled with a liquid and one or more microscopic elements. In addition, the dynamic response continues after cessation of the change of orientation with respect to gravity. The dynamic response includes a transition of the one or more microscopic elements from substantial mechanical equilibrium to non-equilibrium upon action of the change of orientation with respect to gravity and back to substantial mechanical equilibrium after cessation of the change of orientation with respect to gravity. During the dynamic response, the one or more microscopic elements undergo at least one of a rotational motion and a translational motion relative to the liquid.
US11675182B2
A method of operating a liquid lens can include positioning a variable interface between first and second liquids in a brace position in response to a brace trigger event. The variable interface can be adjustable between (a) a rest position in which a perimeter of the variable interface is spaced from a first window of the liquid lens by a rest distance and (b) the brace position in which the perimeter of the variable interface is spaced from the first window by a brace distance. The brace distance can be greater than the rest distance. In the rest position, the variable interface can have a rest surface area. In the brace position, the variable interface can have a brace surface area. The brace surface area can be less than the rest surface area.
US11675180B2
The disclosure relates to a viewing optic. In one embodiment, the disclosure relates to a viewing optic having an integrated display system. In one embodiment, the disclosure relates to a viewing optic having an integrated display system for generating images that are projected into the first focal plane of an optical system.
US11675171B2
An imaging device includes: a plurality of optical systems each forming an image of a subject; a plurality of imaging sensors corresponding to the respective plurality of optical systems; and a housing part that houses the plurality of optical systems and the plurality of imaging sensors, the housing part having a peripheral surface along a circumferential direction about a reference axis, wherein: at least two of the plurality of optical systems each have: a peripheral lens arranged along the peripheral surface and located closest to an object; and a first optical path, the first optical paths of the at least two optical systems intersecting each other; and each of the peripheral lenses has a longitudinal direction, the peripheral lens being arranged along the peripheral surface such that the longitudinal direction extends along the reference axis.
US11675169B2
An image picking-up system includes seven lens elements, which are, in order from an object side to an image side, a first lens group including a first lens element and a second lens element, a second lens group including a third lens element and a fourth lens element, and a third lens group including a fifth lens element, a sixth lens element and a seventh lens element. The third lens element has positive refractive power. The fourth lens element has an image-side surface being concave in a paraxial region thereof. At least one surface of object-side surfaces and image-side surfaces of the seven lens elements includes at least one inflection point.
US11675159B2
A prism holder for use with a surgical instrument, having a prism. The prism holder including: a casing for receiving the prism; and at least one prism pressure element configured to be brought into contact with a pressure surface of the prism; wherein the casing having an opening for arrangement of the at least one prism pressure element in the opening.
US11675155B2
Spacers for separating a first lens element from a second lens element, lens modules including such spacers and digital cameras including such lens modules. A spacer may comprising along its perimeter at least one contact section being in contact with the first lens element and the second lens element and at least one non-contact section being separated from the first lens element. The at least one non-contact section comprises an internal inclined surface having designed to reduce or mitigate stray light.
US11675147B2
An optical transceiver includes a groove-shaped accommodating portion that extends in a longitudinal direction, the housing being configured to be inserted and removed from a cage of an external device. The optical transceiver includes a movable member attached to the housing and a leaf spring member accommodated in the accommodating portion. The spring member includes a first pressing portion pressing a protrusion toward a first surface of the accommodating portion. The spring member includes and a second pressing portion pressing, in the longitudinal direction, a second surface of the accommodating portion. An end of the spring member toward the first pressing portion is configured to curve away from the first surface of the accommodating portion in the longitudinal direction as a distance from first pressing portion increases.
US11675144B2
A laser module, includes: an optical fiber; n laser diodes LDi (i=1, 2, . . . , n) arranged in an order corresponding to a descending order of optical path lengths LOi of optical paths respectively extending from the laser diodes LDi to the optical fiber; and n collimating lenses SLi respectively disposed in the optical paths to be distant from the respective laser diodes LDi and from the optical fiber. When a distance from each of the laser diodes LDi to a corresponding one of the collimating lenses SLi is defined as a collimation length LCi, at least one of a collimation length LC1 and a collimation length LCn differs from a certain distance SL that is set with respect to each of the collimating lenses SLi.
US11675136B2
An optoelectronic structure includes a substrate, an electronic die and a photonic die. The electronic die is disposed on the substrate and includes a first surface, wherein the first surface is configured to support an optical component. The photonic die is disposed on the first surface of the electronic die and has an active surface toward the first surface of the electronic die and a side surface facing the optical component.
US11675134B1
An optical bandpass filter includes an optical splitter having at least four ports, one of the ports being designated as an input port and one of the ports being designated as an output port. First and second reflectors couple with respective third and fourth ones of the ports. The splitter directs portions of the input light from the input port, into the third and fourth ports, such that the portions of the input light propagate toward the respective first and second reflectors. The first and second reflectors reflect light having wavelengths within a predetermined wavelength range, back toward the splitter, as wavelength-selected light, and transmit light having wavelengths that are outside of the predetermined wavelength range, away from the splitter. The splitter directs at least a portion of the wavelength-selected light that propagates back toward the splitter, into the output port, as output light.
US11675133B2
An optical add/drop device (100) comprising: a common port (102); an add port (106); a first wavelength selective optical filter (110) configured to: receive an optical signal at an add wavelength from the add port and transmit said optical signal at the add wavelength towards the common port; and receive optical signals from the common port and reflect optical signals not at the add wavelength; a second wavelength selective optical filter (114) configured to receive said optical signals from the common port reflected by the first wavelength selective optical filter and transmit an optical signal at a drop wavelength, different to the add wavelength; a drop port (116); and an optical waveguide (118) configured receive said optical signal at the drop wavelength transmitted by the second wavelength selective optical filter and route said optical signal to the drop port.
US11675128B2
End-face coupling structures within an electrical backend are provided via photonic integrated circuit (PIC), comprising: a first plurality of spacer layers; a second plurality of etch-stop layers, wherein each etch-stop layer of the second plurality of etch-stop layers is located between two spacer layers of the first plurality of spacer layers; and an optical coupler comprising a plurality of waveguides arranged as a waveguide array configured to receive an optical signal in a direction of travel, wherein each waveguide of the plurality of waveguides is located at a layer interface defined between an etch-stop layer and a spacer layer. Portions of the PIC can be formed by depositing layers of spacer and etch-stop materials in which cavities are formed to define the waveguides when the waveguide material is deposited or interconnects when a metal is deposited therein.
US11675116B2
Provided is a near-infrared cut-off filter having excellent oblique incidence characteristics due to extremely low dependence on the angle of incidence, and a low transmittance in a wavelength region of 1000 nm or more. More particularly, the near-infrared cut-off filter includes a transparent substrate that is formed of glass containing iron atoms and has a half-value wavelength of greater than 630 nm on a long wavelength side of a transmittance curve and an average transmittance of 1% or less in a wavelength region of 1000 to 1200 nm; and a resin layer formed on at least one main surface of the transparent substrate to absorb light of a specific wavelength.
US11675108B2
An optical element (200), has a first surface configured to convey light, a second surface configured to convey light, an optical path between the first surface and the second surface, a filter coating (230) applied to the first surface, and a colour corrected anti-reflection (AR) coating (240) with colour correcting and antireflection characteristics applied to the second surface. The AR coating is configured according to an antireflective function to maximise photopic transmission and/or, integrated visual photopic transmission (IVPT) of the optical path. The second surface is disposed opposite the first surface, and the antireflective function is determined according to a daylight emission a I(λ), a transmission spectrum of the antireflection/colour corrective coating T(λ) and a thickness a d(λ), of the film for a specified wavelength.
US11675097B2
Disclosed herein are methods and devices for the acquisition of positron emission (or PET) data in the presence of ionizing radiation that causes afterglow of PET detectors. In one variation, the method comprises adjusting a coincidence trigger threshold of the PET detectors during a therapy session. In one variation, the method comprises adjusting a gain factor used in positron emission data acquisition (e.g., a gain factor used to multiply and/or shift the output(s) of a PET detector(s)) during a therapy session. In some variations, a method for acquiring positron emission data during a radiation therapy session comprises suspending communication between the PET detectors and a signal processor of a controller for a predetermined period of time after a radiation pulse has been emitted by the linac.
US11675085B1
A system and method include receiving a first beam pattern from an optical source that comprises a plurality of optical beams transmitted towards a target causing different spaces to form between each optical beam. The system and method include measuring a vertical angle between at least two of the optical beams along a first axis and calculating a second beam pattern based on the vertical angle and a pivot point that causes the optical beams to be transmitted towards the target with substantially uniform spacing. The system and method include adjusting, at the pivot point, one or more components to form the second beam pattern to adjust the plurality of different spaces to the substantially uniform spacing for transmission towards the target. The system and method include receiving return optical beams from the target to produce a plurality of points to form the point cloud.
US11675080B2
An apparatus for determining at least one spatial position and orientation of at least one object with at least three retroreflectors is provided. The apparatus has at least one LIDAR unit with at least three measurement channels. The LIDAR unit has at least one illumination device, which is configured to produce at least one frequency modulated input light beam. The LIDAR unit has at least one first beam splitter, wherein the first beam splitter is configured to divide the input light beam among the measurement channels in parallel and/or in sequence. The measurement channels are each configured to produce at least one measurement signal. The LIDAR unit is configured to produce at least one LIDAR signal for the measurement signals. The apparatus has at least one evaluation unit, which is configured to determine the spatial position and orientation of the object from the LIDAR signal.
US11675078B2
A light detection and ranging (“LiDAR”) system includes a coherent light source that generates a frequency modulated optical signal comprising a series of optical chirps. A scanning assembly transmits the series of optical chirps in a scan pattern across a scanning region, and receives a plurality of reflected optical chirps corresponding to the transmitted optical chirps that have reflected off one or more objects located within the scanning region. A photodetector mixes the reflected optical chirps with a local oscillation (LO) reference signal comprising a series of LO reference chirps. An electronic data analysis assembly processes digital data derived from the reflected optical chirps and the LO reference chirps mixed at the photodetector to generate distance data and optionally velocity data associated with each of the reflected optical chirps.
US11675075B2
Embodiments of the disclosure provide a system for controlling power of laser lights emitted by an optical sensing device. The system includes at least one storage device configured to store instructions and at least one processor communicatively coupled to the at least one storage device and configured to execute the instructions to perform operations. The operations include detecting an object within a field of view of the optical sensing device based on a reflected laser signal received by the optical sensing device, determining a distance of the object from the optical sensing device, determining a value indicating a total power of one or more laser beams to be incident on an aperture at the distance, and comparing the value with a predetermined tolerance value. The operations also includes adjusting a laser emission scheme to reduce the total power when the value is greater than the predetermined tolerance value.
US11675072B2
Disclosed is an autonomous mobile robot including a main body, and a driving part positioned below the main body and configured to move the main body, wherein the driving part includes a rotation part that is rotatably provided and is configured to dispose a sensor module including one or more sensors outwards, a base positioned below the rotation part, and a driving wheel installed on the base, thereby embodying a sensing system with low cost and high efficiency.
US11675068B2
A data processing method, device and multi-sensor fusion method for multi-sensor fusion, which can group data captured by different sensors in different probe dimensions to simultaneous interpreting deep learning data based on pixel elements in the multi-dimensional matrix structure, thereby realize the more effective data mining and feature extraction to support more effective ability of environment perception and target detection.
US11675066B2
A system for using radio frequency (RF) communication signals to extract situational awareness information thorough deep learning. Pre-processing is performed to maximally preserve discriminating features in spatial, temporal and frequency domains. A specially designed neural network architecture is used for handling complex RF signals and extracting spatial, temporal and frequency domain information. Data collection and training is used so that the learning system desensitizes from features orthogonal to the underlying classification problem.
US11675060B2
A receiver for a light detection and ranging system includes detecting elements, each configured to convert light into an analog detection signal. The receiver includes a first converting element configured to provide a first digital detection signal in response to a first analog detection signal. The first converting element is configured to use a first number of bits to represent the first analog detection signal. The receiver includes a second converting element configured to provide a second digital detection signal. The second converting element is configured to use a second number of bits to represent the second analog detection signal. The second number of bits is greater than the first number of bits. The receiver comprises a processing module configured to determine a first parameter of an object using the first digital detection signal and a second parameter of the object using the second digital detection signal.
US11675052B2
An electromagnetic wave detection apparatus 10 includes a separator 16, a first detector 17, a switching unit 18, and a second detector 20. The separator 16 is capable of switching between a separation state and a non-separation state. The separator 16 separates incident electromagnetic waves to travel in a first direction d1 and a second direction d2, in the separation state. The first detector 17 detects electromagnetic waves traveling in the first direction d1. The switching unit 18 includes a plurality of switching elements “se”. Each switching element “se” is capable of switching a traveling direction of electromagnetic waves traveling in the second direction d2 between a third direction d3 and a fourth direction d4. The second detector 20 detects electromagnetic waves traveling in the third direction d3.
US11675051B2
A lidar sensor comprising a laser, an optical sensor, and a processor. The lidar sensor can determine a distance to one or more objects. The lidar sensor can optionally embed a code in beams transmitted into the environment such that those beams can be individually identified when their corresponding reflection is received.
US11675050B2
Embodiments discussed herein refer to a relatively compact and energy efficient LiDAR system that can be mounted to a windshield on the interior cabin portion of a vehicle. In order to accommodate the relatively compact size of the LiDAR system, multiple moveable components are used to ensure that a desired resolution is captured in the system's field of view.
US11675048B2
A time-of-flight camera has; an illumination source for illuminating a scene; an image sensor for detecting light; and a processor configured to: control the image sensor for scanning a scene for detecting illumination; determine a time slot for illumination of the scene, based on the scanning result of the scene; and control the illumination source to illuminate the scene in the determined time slot, based on a time-division multiple access scheme.
US11675047B2
A frequency modulated continuous wave (FMCW) radar system includes an antenna array having C antennas where (C=A+B−1), a first integrated circuit (IC) device including A first sensor inputs, and a second IC device including B second sensor inputs. The first sensor inputs are coupled to a first A of the antennas, and the second sensor inputs are coupled to a last B of the antennas such that a common one of the first sensor inputs and a common one of the second sensor inputs are both coupled to a common antenna. Each IC device receives reflected signals on each sensor input, and mixes the reflected signals to associated baseband signals based upon a local oscillator (LO) signal. Each LO signal has a different phase shift. The LO signals are based upon a common LO signal.
US11675046B2
Transmitters having increased efficiency, such as may be useful in millimeter-wave devices. A semiconductor device, comprising a transmitter, comprising a modulator configured to receive a differential input signal having a first frequency and provide a differential modulated signal having the first frequency and a first clock phase; a series comprising one or more frequency multipliers, wherein the series of frequency multipliers is configured to receive the differential modulated signal and provide a differential second signal having a second frequency greater than the first frequency and having a second clock phase; and an output transformer configured to receive the differential second signal and transform the differential second signal to a single-ended output signal. Methods of using such transmitters. Systems for manufacturing devices comprising such transmitters.
US11675042B1
A management server in communication with one or more object tracking devices is disclosed. The management server may receive location information, configuration information, and orientation information associated with the one or more object tracking devices. Based at least in part on the location information, the management server may receive weather information associated with the locations of the one or more object tracking devices. Based at least in part on the location information, the weather information, the configuration information, and the orientation information, the management server can determine power generated and power consumed by the one or more object tracking devices, which then can be used to determine estimated operation time for the one or more object tracking devices.
US11675036B2
The present disclosure relates to a shimming device. The shimming device may include at least one supporting component each of which is configured with a plurality of wire groove groups. Each of the plurality of wire groove groups may include a plurality of wire grooves. Each of the plurality of wire grooves may be in a closed shape. The closed shapes formed by the plurality of wire grooves may be nested. The shimming device may further include wires arranged in the wire grooves of the plurality of wire groove groups of the at least one supporting component.
US11675033B2
The present invention provides a damping mechanism comprising a first member comprising a base section, a resilient damping section and an enclosed chamber defined by the base section and an inner surface of the resilient damping section. The resilient damping section is centered about a rotation axis and the enclosed chamber is provided radially inward of the resilient damping section and configured to accommodate a deformation of the resilient damping section. A second member is attached pivotably to the base section of the first member to rotate around the rotation axis relative to the base section. A damping protrusion extends from the second member toward the resilient damping section. The resilient damping section comprises an outer surface facing away from the enclosed chamber which is configured to be engaged with the damping protrusion to produce the deformation of the resilient damping section and provide a damping to the rotation of the second member relative to the base section. According to the present invention, the damping mechanism is simple in structure and easy to manufacture and assemble.
US11675015B1
An integrated circuit device includes a controller, a voltage source coupled to the controller, a voltage sampler coupled to the controller, a to current detector coupled to the controller and memory coupled to the controller, where memory includes code segments executable by the controller for: (a) measuring a cell voltage to determine an initial voltage; (b) holding the cell voltage at the initial voltage using a power source; and (c) determining the leakage current of the cell by the current provided by the current power source with a low current detector. The power source can be one or both of a voltage source and a current source.
US11675014B2
A power tool includes: a rechargeable battery; a motor; a drive circuit; an operation unit; a battery state detection circuit; a control circuit; and an interruption circuit. The battery state detection circuit detects a battery voltage, and when the detected battery voltage is lower than or equal to a prescribed voltage, the battery state detection circuit outputs a low-voltage signal. The control means outputs a control signal to the drive circuit instructing to drive the motor when the operation unit is operated and halts the output of the control signal to the drive circuit instructing to halt driving the motor in response to the low-voltage signal. The interruption circuit outputs an interruption signal to the drive circuit in response to the low-voltage signal to thereby interrupt the drive circuit and halt driving the motor irrespective of whether or not the control signal is outputted to the drive circuit.
US11675013B2
The present invention provides a classification method and system for rechargeable batteries based on stable charging current or current leakage. A charging current should be zero theoretically when a rechargeable battery is fully charged, however, due to self-discharging effect, there exists a current leakage even after the battery is fully charged. Rechargeable batteries can be classified based on their stable charging current after being fully charged. Different classified rechargeable batteries can be adopted for different purposes.
US11675006B2
An example integrated circuit (IC) die in a multi-die IC package, the multi-die IC package having a test access port (TAP) comprising a test data input (TDI), test data output (TDO), test clock (TCK), and test mode select (TMS), is described. The IC die includes a Joint Test Action Group (JTAG) controller having a JTAG interface that includes a TDI, a TDO, a TCK, and a TMS, a first output coupled to first routing in the multi-die IC package, a first input coupled to the first routing or to second routing in the multi-die IC package, a master return path coupled to the first input, and a wrapper circuit configured to couple the TDI of the TAP to the TDI of the JTAG controller, and selectively couple, in response to a first control signal, the TDO of the TAP to either the master return path or the TDO.
US11675001B2
Embodiments of the present disclosure relate to solutions for introducing personalization data in nonvolatile memories of a plurality of integrated circuits, comprising writing in the nonvolatile memory of a given integrated circuit a static data image, corresponding to an invariant part of nonvolatile memory common to the plurality of integrated circuits, and a personalization data image representing data specific to the given integrated circuit.
US11674990B2
To easily measure a voltage to ground of electromagnetic interference waves generated on a cable. A capacitance-to-ground measurement mechanism 10 includes a first electrode 11 and a second electrode 12 positioned at equal altitudes to be opposed to the earth, and a first voltage measurement device 15 to measure a voltage generated in a first resistance 14 connected between the first electrode 11 and the second electrode 12 by an output signal from an oscillation circuit 13. A voltage-to-ground measurement mechanism 30 includes a GND electrode 31 positioned at an altitude equal to that of the first electrode 11 and the second electrode 12 to be opposed to the earth, and a second voltage measurement device 33 to measure a voltage generated in a second resistance 32 connected between the GND electrode 31 and a probe 34 that is brought into contact with a cable core 106 as a measurement target. A computation mechanism 50 includes a computation device 51 to calculate a voltage to ground of electromagnetic interference waves generated on a cable based on data of respective voltages measured by the capacitance-to-ground measurement mechanism 10 and the voltage-to-ground measurement mechanism 30.
US11674989B1
Various embodiments provide for determining a capacitance (or capacitor value) of a circuit, determining a resistance-capacitance time constant (or RC time constant) of a circuit, or both. The circuit can comprise an integrated circuit (IC), such as a circuit implemented on die. An IC of some embodiments generates a frequency of a dock wave signal (e.g., an output signal) such that the clock wave signal encodes an effective capacitance of the IC, a RC time constant of the IC, or both. A component external to the IC, such as a controller, can receive the clock wave signal and determine the effective capacitance of the IC, the RC time constant of the IC, or both based on the received clock wave signal.
US11674977B2
An electrical contact assembly that uses an elastomer strip for each row of individual contacts. Each contact comprises a rigid bottom pin and a flexible top pin with a pair of arms which extend over and slide along sloped concave surfaces of the bottom contact. The elastomer strip is located between rows of the bottom and top pins. A bottom socket housing is provided with grooves which receive each elastomer strip. A row of top pins is then placed over each elastomer strip, and through ducts in the bottom socket housing. Bottom pins are then snapped into place in between the pair of arms.
US11674969B2
Provided herein are methods for high throughput quantitation of testosterone utilizing at least two different derivatizing agents of different masses. In another aspect, provided herein are methods for determining the amount of testosterone in each of a plurality of human samples with a single mass spectrometric assay by subjecting each of a plurality of human samples to a different derivatizing agent to generate a differently derivatized testosterone in each of the plurality of samples; combining the plurality of samples to form a multiplex sample; and quantifying the amount of testosterone in each sample by mass spectrometry.
US11674968B2
Compositions and methods for identifying free thiols in protein are provided. An exemplary method labeling peptides with a tag to identify free thiols and a tag to identify native disulfide bonds and analyzing the tags using targeted MS2. In one embodiment, the method provides complete coverage of all 32 cysteine residues in an IgG molecule. In other embodiments the method covers the 16 cysteine residues on the heavy and light chains in an IgG molecule. In another embodiment, the method covers the 5 cysteine residues on each light chain of an IgG molecule. In another embodiment, the method covers the 11 cysteine residues on each heavy chain of an IgG molecule.
US11674965B2
Disclosed herein is a method for analyzing the concentration of a fluorescent compound in the plasma of a patient. The method includes collecting a sample of plasma from a patient, diluting the sample with a solvent and analyzing the diluted sample by HPLC. The sample does not need to be dried down during sample preparation nor is an internal standard required.
US11674962B2
The present invention provides therapeutic, diagnostic, and prognostic methods for cancer. The invention provides methods of treating a cancer, methods of determining whether an individual having a cancer is likely to respond to a treatment including an immune checkpoint inhibitor (e.g., a PD-L1 axis binding antagonist), methods of predicting responsiveness of an individual having a cancer to a treatment including an immune checkpoint inhibitor (e.g., a PD-L1 axis binding antagonist), methods of selecting a therapy for an individual having a cancer, methods of providing a prognosis for an individual having a cancer, and methods of monitoring a response of an individual having a cancer, based on a blood tumor mutational burden (bTMB) score or a maximum somatic allele frequency (MSAF) from a sample (e.g., a whole blood sample, a plasma sample, a serum sample, or a combination thereof) from the individual.
US11674960B2
An implantable diagnostic device in accordance with the present disclosure provides various benefits such as a compact size thereby allowing implanting of the device inside animate objects; low cost due to incorporation of inexpensive detection circuitry and the use of conventional IC fabrication techniques; re-usability by heating thereby allowing multiple diagnostic tests to be performed without discarding the device; and a configuration that allows performing of simultaneous and/or sequential diagnostic tests for detecting one or more similar or dissimilar target molecules concurrently or at different times.
US11674959B2
The present invention in various aspects and embodiments involves pharmaceutical compositions prepared by contacting a candidate α- or β-integrin-binding molecule, or panel thereof, with an integrin heterodimer, and quantifying heterodimer disruption by the candidate molecule. An integrin-binding molecule, or derivative thereof, that disrupts the integrin heterodimer is selected and is formulated into a pharmaceutical composition for administration to a subject, e.g., who has a disease or disorder related to abnormal vascularization.
US11674954B2
An object of the present invention is to provide a kit and a method capable of achieving high-precision measurement of a measurement target substance in a biological sample in a wide concentration range from a low concentration to a high concentration. According to the present invention, there is provided a kit for measuring a measurement target substance in a biological sample, the kit including: a labeled particle having a first binding substance capable of binding to the measurement target substance in a biological sample and having a first blocking agent; and a substrate having a second binding substance capable of binding to any one of the measurement target substance or the first binding substance and having a second blocking agent, in which the labeled particle is a luminescent labeled particle containing at least one kind of compound represented by Formula (1) and a particle, and the first blocking agent and the second blocking agent are different from each other. Each symbol in Formula (1) has the meaning described in the present specification.
US11674943B2
One embodiment provides a pipe inspection robot, including: a chassis configured to traverse through an interior of a water or sewer pipe; a water quality probe comprising a first end that couples to the chassis and a sensing end distal thereto; an electric motor configured to reposition the sensing end of the water quality probe with respect to the chassis; said electric motor acting to move the sensing end of the water quality probe to reposition the sensing end proximate to fluid containing water located proximate to a bottom part of the chassis; the sensing end configured to contact the fluid containing water for contact sensing of water quality data. Other aspects are described and claimed.
US11674932B2
A flexible ultrasonic transducer comprising a flexible metal plate, a piezoelectric ceramics element, a first electrical conductor and an insulation covering a portion of the metal plate. The metal plate comprises a first and a second outer surface opposite each other. The piezoelectric ceramics element is attached to the first outer surface, a first portion of the first outer surface is not covered with the piezoelectric ceramics element, and the first electrical conductor is attached to a first portion of the second outer surface or the first portion of the first outer surface. The first portion of the first outer surface and the first portion of the second outer surface have similar dimensions and positions and the insulation covering covers the first portion of the first outer surface so that the piezoelectric ceramics element is directly dry coupled an object to be inspected by means of the transducer.
US11674928B2
An acoustic sensor detects binding of a nucleic acid analyte in an impure liquid sample by measurement of the energy of the acoustic wave resulting from the binding of the nucleic acid target to the sensor surface. The analysis may be preceded by carrying out a nucleic acid amplification procedure in situ on a crude or impure biological sample and the analysis is tolerant of the presence of reagents or by-products of the amplification procedure, and also materials present from the initial biological sample.
US11674919B2
A detector includes a substrate including a first surface and a second surface opposite to the first surface, a funnel-shaped recess extending from the second surface of the substrate to the first surface of the substrate, a conductive layer disposed below the first surface of the substrate, an insulating layer disposed between the substrate and the conductive layer, and a first through via extending through the conductive layer and the insulating layer, and coupled to the funnel-shaped recess.
US11674916B2
A gas sensing device comprising a substrate comprising an etched cavity portion and a substrate portion, a dielectric layer disposed on the substrate, wherein the dielectric layer comprises a dielectric membrane, wherein the dielectric membrane is adjacent to the etched cavity portion of the substrate, a heater located within the dielectric layer; a material for sensing a gas; and one or more polysilicon electrodes coupled with the material for sensing a gas.
US11674909B2
In certain aspects, a method for training a model is disclosed. A model for measuring a geometric attribute of a hole structure in a semiconductor chip is provided by at least one processor. A plurality of training samples each including a pair of an optical spectrum signal and a reference signal corresponding to a same hole structure are obtained by the at least one processor. The reference signal is labeled with a labeled geometric attribute of the hole structure. An estimated geometric attribute of the hole structure is estimated using the model. A parameter of the model is adjusted based, at least in part, on a difference between the labeled geometric attribute and the estimated geometric attribute in each of the training samples by the at least one processor.
US11674907B2
A method and device recognize and analyze surface defects in three-dimensional objects having a reflective surface, in particular motor vehicle bodies. In which method the surface defects are identified by the evaluation of an image, recorded by a camera in the form of a raster image of pixels, of an illumination pattern projected by a first illumination device onto a part of the reflective surface using a two-dimensional raster coordinate system. The surface defects are identified exclusively using two-dimensional image information with the aid of image processing algorithms without the need for “environmental parameters”, and complex geometric calculations can be omitted. The solution is fast and robust and can be carried out using differently configured first illumination devices, which makes it suitable for mobile applications, for example as a hand-held module. It is also made possible for the method to be optimized by a “deep learning” strategy.
US11674893B2
A housing includes a first opening and a second opening, and encloses a light-emitting element and a first light receiving unit. The first opening is provided in a first light guide path, and is arranged so that light output from the light-emitting element travels toward a target surface. The second opening is provided in a second light guide path arranged between the target surface and the first light receiving unit. The first opening is an exit opening of a through-hole provided penetrating through the housing, and a shape of the through-hole is a shape in which diffracted light of the +1st order and higher orders and diffracted light of the −1st order and higher orders produced at the target surface to be irradiated are not incident on the first light receiving unit.
US11674890B2
Provided are an optical sensor device using surface acoustic waves and an optical sensor device package. The optical sensor device includes: a substrate including a first light sensing area and a temperature sensing area and including a piezo electric material; a first input electrode and a first output electrode which are disposed in the first light sensing area and are apart from each other with a first delay gap therebetween; a first sensing film overlapping the first delay gap and configured to cover at least some portions of the first input electrode and the first output electrode; and a second input electrode and a second output electrode which are disposed in the temperature sensing area and are apart from each other with a second delay gap therebetween. The second delay gap is exposed to air.
US11674888B2
The present invention provides a self-aligned high finesse optical sensor cell for analyzing a gaseous sample using highly reflective optical mirrors with a light source and a detector coupled on either end of the cell, having flexibility and/or serviceability in self-aligning the highly reflective mirrors to the optical cell without any mechanical manipulations.
US11674875B2
A fluid medium monitoring apparatus of the present invention comprises: a light source unit for irradiating light; a first collimator unit for collimating light irradiated from the light source unit; a flow cell unit in which a fluid medium flows and light is allowed to absorb the wavelength of the fluid medium while proceeding along the moving direction of the fluid medium; and a light detection unit for detecting the wavelength of the light passing through the flow cell unit.
US11674870B2
A sample protection method is provided which may be used for protecting a biological sample on a microscope slide, such as during heat-induced target retrieval and/or after heat-induced target retrieval such that: 1) the sample remains adherent to the microscope slide; and 2) the microscopic morphology of the biological sample remains intact. In some embodiments, the sample protection method may include the steps of: creating a sectioned sample that is in contact with a microscope slide; applying a protecting reagent onto a sectioned sample that is in contact with a microscope slide and drying the protecting reagent in which the protecting reagent may be both applied and dried onto the sectioned sample before and/or after performing target retrieval on the sectioned sample. The protecting reagent may include a water-soluble polymer and/or a water-soluble wax, such as polyethylene glycol, polypropylene glycol, polyvinyl alcohol, polyvinylpyrrolidone, alginic acid, and carrageenan.
US11674865B2
A system and method utilizing a light transfer protocol for a sensor that monitors hose assembly degradation is disclosed. The system includes a sensor having one or more first alignment features, a contactless switch, and a light transmitter configured to transmit a light transfer protocol. The light transfer protocol is a sensor unique identification code recognizable by a gateway device that automatically pairs the sensor to the gateway device.
US11674862B2
A pressure sensing unit, a capacitive hybrid sensor device, and an input apparatus using the same are provided. The pressure sensing unit for detecting pressing events includes a pressure sensing pad group and a floating conductive element. The pressure sensing pad group includes a first pressure sensing pad, a second pressure sensing pad, and a ground pad that are spaced apart from one another. The first and second pressure sensing pads are electrically shielded from each other by the ground pad. One among the floating conductive element and the pressure sensing pad group is configured to be movable in a movement direction relative to another one among the floating conductive element and the pressure sensing pad group. The floating conductive element overlaps with the pressure sensing pad group in the movement direction. Therefore, a signal-to-noise ratio can be increased and an erroneous detection can be prevented.
US11674856B2
A system for estimating junction temperatures of a power semiconductor module includes a constant current source to apply constant drain current to a drain terminal of a power semiconductor device, an adjustable gate voltage source to apply a gate voltage signal to a gate terminal, a drain-source voltage sensor between the drain terminal and the source terminal and configured to measure a value of the current drain-source voltage across the power semiconductor device and output a corresponding drain-source voltage signal, a gate controller to determine a difference between the drain-source voltage signal and a constant reference voltage and control output of the adjustable gate voltage source dependent on the determined difference, and a system controller to switch the power semiconductor device to its fully conducting state and to estimate junction temperature within the power semiconductor device in dependency from the on-state resistance in the fully conducting state.
US11674854B2
Techniques regarding determining and/or analyzing temperature distributions experienced by quantum computer devices during operation are provided. For example, one or more embodiments described herein can comprise a system, which can comprise a memory that can store computer executable components. The system can also comprise a processor, operably coupled to the memory, and that can execute the computer executable components stored in the memory. The computer executable components can comprise a region component that can define a plurality of temperature regions from a quantum computing device layout. The computer executable component can also comprise a map component that can generate a map that characterizes a temperature distribution by determining at least one temperature achieved within the plurality of temperature regions during an operation of the quantum computing device layout.
US11674852B1
A stirring paddle for a cooking pot having a temperature sensor that preferably extends from the paddle handle to a paddle shaft and to the paddle blade. A display in the handle or grip or in the shaft displays temperature measured by the temperature sensor.
US11674851B1
A high-performance Microbolometer that incorporates vanadium oxide (VOx) along with carbon nanotubes (CNTs) or graphene. This Microbolometer, which uses a microbridge comprising Si3N4 and VOx, provides low noise and high dynamic range longwave infrared (LWIR) band detection. Addition of CNTs/graphene provides a high level of performance [low 1/f noise, noise equivalent temperature difference (NETD), and thermal time constant] due to the high temperature coefficient of resistance (TCR) of these materials.
US11674848B2
Systems, methods, and devices for hyperspectral imaging with increased dynamic range are disclosed. A system includes an emitter for emitting pulses of electromagnetic radiation and an image sensor comprising a pixel array for sensing reflected electromagnetic radiation, wherein the pixel array comprises a plurality of pixels each configurable as a short exposure pixel or a long exposure pixel. The system includes a controller comprising a processor in electrical communication with the image sensor and the emitter. The system is such that at least a portion of the pulses of electromagnetic radiation emitted by the emitter comprises one or more of electromagnetic radiation having a wavelength from about 513 nm to about 545 nm, electromagnetic radiation having a wavelength from about 565 nm to about 585 nm, or electromagnetic radiation having a wavelength from about 900 nm to about 1000 nm.
US11674842B2
An optical sensor arrangement comprises an optoelectronic device covered by a cover arrangement and being configured to emit or detect at least electromagnetic radiation with a first wavelength through an aperture of the cover arrangement. The optical sensor arrangement further comprises a mirror arrangement arranged between the optoelectronic device and the aperture and comprising a wavelength selective mirror with a passband and a stopband. The passband includes a first wavelength range including the first wavelength, the stopband includes a second wavelength range corresponding to visible light or vice versa.
US11674839B1
A method comprising receiving, from a infrared image capture device, an image including a fluid storage tank storing a fluid, the image including an image intensity associated with a temperature of the fluid storage tank with an internal surface that is in contact with the fluid and an image intensity associated with a temperature of the first fluid storage tank with an internal surface that is not in contact with the fluid, generating feature maps, sliding a window to obtain a plurality of anchor shapes using a region proposal network, determining if each anchor shape contains an object to generate a plurality of regions of interest, extracting feature maps from each region of interest, classifying objects in each region of interest, identifying stored fluid using the objects, determining volume of stored fluid based on the stored fluid, and providing the volume to a digital device for display.
US11674837B2
Disclosed herein are methods and systems for dynamically calculating a total fuel uplift quantity for an aircraft scheduled to fly a flight route. In one aspect, a method comprises: (a) polling a plurality of sources to receive data indicative of: (i) real-time weather conditions in remaining flight sectors in the flight route, and (ii) delay information in the remaining sectors; (b) calculating for the remaining sectors a respective fuel consumption factor; (c) based on (i) respective fuel quotations in the remaining sectors, (ii) the real-time weather conditions, and (iii) the delay information, generating a linear model for calculating a respective fuel uplift quantity at arrival stations in the remaining sectors; (d) calculating using the linear model the respective fuel uplift quantity at the arrival stations; and (e) periodically performing operations (a)-(d) to update a calculation of the respective fuel uplift quantities to account for changing factors.
US11674828B2
Systems, assemblies, and methods can involve a retainer assembly adapted to interface with a sensor rod of an in-cylinder position sensor assembly of a fluid cylinder. The retainer assembly can comprise an annular body that defines a bore extending from a first end of the annular body to a second end of the annular body opposite the first end; a sleeve disposed in the bore at an inner wall of the annular body; and one or more magnets fixedly provided between the annular body and the sleeve in a radial direction of the annular body. Each of the one or more magnets may be fixedly molded in place between the annular body and the sleeve in the radial direction of the annular body.
US11674822B2
A position detection device includes a first position detector, a second position detector, and a signal generator. The first position detector includes a first magnetic field generation unit, a second magnetic field generation unit, and a first magnetic sensor. The second position detector includes a third magnetic field generation unit, a fourth magnetic field generation unit, and a second magnetic sensor. The positions of the second and fourth magnetic field generation units vary in response to variations in a detection-target position. The signal generator generates a position detection signal, which is the sum of a first detection signal generated by the first magnetic sensor and a second detection signal generated by the second magnetic sensor. Each of the first and second position detectors includes a bias magnetic field generation unit.
US11674819B2
A mobility information provision system includes a collector, a mapping unit, a generator, and a controller. The collector collects information about movement of mobile bodies. The mapping unit maps positions of the mobile bodies on the basis of the information collected by the collector. The generator generates course-related information by using information including the positions of the mobile bodies mapped by the mapping unit. The controller controls movement of each of the mobile bodies on the basis of the generated course-related information. The mapping unit maps a position error of a first mobile body together with a position of the first mobile body, in a case of determining that the position error occurs on the basis of the information collected by the collector. The generator generates the course-related information that allows the first mobile body to move within a range including the position and the position error thereof.
US11674813B1
Disclosed are systems, methods, and non-transitory computer-readable media for generating estimated times of arrival for multiple stops along a route. A route management system provides for: accessing a route tracking report associated with a vehicle to identify a set of stops along a route; determining a current location of the vehicle; computing, based on a current location of the vehicle, a first estimated time of arrival (ETA) associated with a first stop of the set of stops and a second ETA associated with a second stop of the set of stops; and generating, for display, first and second identifiers of the first and second stops associated with the first and second ETAs of the first and second stops.
US11674801B2
A sensor rod assembly includes a master stick and an extension stick, where the master stick and the at least one extension stick are couplable together via at least one of a physical coupling, an electrical coupling, or a communicative coupling. The sensor rod assembly includes a controller with one or more processors, where the one or more processors are communicatively coupled to at least one set of detection circuitry and a user interface, where the one or more processors are configured to execute a set of program instructions configured to cause the one or more processors to receive one or more detection signals from at least one of the master stick or the extension stick and configured to cause the one or more processors to determine an elevation of a laser light based on the received one or more detection signals.
US11674799B1
Surface elements, such as protrusions, are provided for use on the surface of flow-following apparatuses, such as surface drifters or subsurface drogues, to enhance the hydrodynamic properties of the apparatus and enhance their capabilities to follow fluid motion. The protrusions may comprise helical strakes or splitter plates for optimizing the drag-to-inertia ratio of the flow-following apparatus, with the goal to enhance their flow-following capabilities. In some embodiments, the flow-following apparatus has a generally axisymmetric body shape, such as having a cylindrical, spherical or oblong shape. The flow-following apparatus may further comprise a position tracking device to track flow motion such as ocean currents.
US11674795B2
An apparatus projecting light onto a projection surface comprises: a substrate having disposed thereon two or more LED clusters and two or more micro-lenses, each LED cluster comprising a plurality of LEDs and each of the micro-lenses being disposed the plurality of LEDs. Each of the LED clusters is arranged to emit light through each of the micro-lenses in a pattern of dots. A center of at least one LED cluster is off-set from an optical center of the micro-lens of its LED cluster. A projected image includes arrangements of individual dots and/or areas of smooth light resulting from the pattern of dots.
US11674792B2
A sensor mounting system that includes a sensor, a mounting ring, a faceplate support, and a faceplate. The mounting ring includes a first opening and a first plurality of threads that are disposed on an interior surface of the first opening. The faceplate support is disposed within the first opening of the mounting ring. The faceplate support includes a second plurality of threads that are configured to engage the first plurality of threads of the mounting ring and a second opening. The faceplate is disposed within the second opening of the faceplate support. The faceplate is coupled to the sensor and is configured to rotate within the second opening of the faceplate support.
US11674790B2
A method of installing a stroke sensor that enables the stroke sensor to be adjusted in a simple process is provided. The method has the steps of: arranging a second magnet, relative to the magnetic field detecting element, at a physically determinable first reference position and obtaining an indicator value S1; attaching the first magnet and the magnetic field detecting element to structures different from each other, respectively, and positioning the first magnet, relative to the magnetic field detecting element, at a physically determinable second reference position, and obtaining an indicator value S2, wherein the second reference position corresponds to the first reference position; calculating ΔS=S1-S2, wherein ΔS is a difference between the indicator value S1 and the indicator value S2; and modifying a process in the processor such that a sum of the indicator value S and ΔS is outputted.
US11674786B2
Disclosed is a measuring tape which includes a housing, a reel received in the housing, and a blade wound on an outer surface of the reel and withdrawn or restored from an entrance of the housing, wherein the housing includes a base which adheres to an outside by using a magnetic force, a first receiving groove providing at least a pair of first lower boundaries parallel to a first direction in which the blade is withdrawn and a second receiving groove providing at least a pair of second lower boundaries parallel with a second direction crossing the first direction are formed on a bottom of the base, and the base is able to be fixed in a two-axis direction with respect to a curved structure by using the first lower boundaries or the second lower boundaries.
