公开(公告)号：WO2023017286A1

公开(公告)日：2023-02-16

申请号：PCT/GB2022/052118

申请日：2022-08-12

Applicant: CHINTALA, Sandeep Kumar

Inventor： CHINTALA, Sandeep Kumar

IPC: G16H80/00 ,  G16H10/60 ,  A61B5/00 ,  G16H15/00 ,  G16H40/20

Abstract: Examples of systems and methods for mental health management are disclosed. In an example, information pertaining to at least one biometric feature and mental health of a patient is obtained. Based on the obtained mental health information, a consultation session is established between the patient and a health professional. Further, the at least one biometric feature may be monitored, in real-time, to generate a notification indicating a mental state of the patient during the consultation session. Based on the notification and the consultation session, a report is rendered on the input/output interface (204).

公开(公告)号：WO2018167473A1

公开(公告)日：2018-09-20

申请号：PCT/GB2018/050631

申请日：2018-03-13

Applicant: CHINTALA, Sandeep Kumar

Inventor： CHINTALA, Sandeep Kumar ,  SRIRANJAN, Rasakatla

IPC: F41B6/00 ,  B64G1/40 ,  B64G1/00

Abstract: The present subject matter relates to a system and a method for galactic transportation (100). The galactic transportation system (100) may comprise multiple rails (102) arranged in a first direction (103), a platform (108) for supporting a transporter (202), and a control unit (106). Further, the multiple propulsion coils (104) may be arranged in the first direction (103) on one or more of the rails (102). The transporter (202) may further comprise multiple propulsion modules (206). The propulsion coils (104) on the rails (102) may be activated to exert an electromagnetic repulsive force on the propulsion modules (206) of the transporter (202) for propulsion of the transporter (202).

公开(公告)号：WO2018167472A1

公开(公告)日：2018-09-20

申请号：PCT/GB2018/050630

申请日：2018-03-13

Applicant: CHINTALA, Sandeep Kumar

Inventor： CHINTALA, Sandeep Kumar ,  RASAKATLA, Sriranjan

IPC: B64D9/00 ,  B64D47/08 ,  B64D43/00

Abstract: The present subject matter relates to an aircraft stabilization system (200). The aircraft stabilization system (200), amongst other components, may include multiple sensors (202), a processing unit (206), and multiple stabilization units (208). The sensors (202) provides sensor data (204). The sensor data (204) is received by the processing unit (206) which may calculate aircraft stabilization parameters based on the sensor data (204). The stabilization units (208) may generate signals based on the aircraft stabilization parameters. The generated signals may be sent to one more stabilization units (208) which may include at least one microcontroller and at least one actuator such as servo motors, hydraulic locks, inflatable rafts, and the like. The actuators, upon receiving the generated signals, operates to counteract tilt caused from maneuvering or vibrations caused due to turbulence.

公开(公告)号：WO2013104910A2

公开(公告)日：2013-07-18

申请号：PCT/GB2013/050045

申请日：2013-01-11

Applicant: CHINTALA, Sandeep Kumar

Inventor： CHINTALA, Sandeep Kumar

IPC: B60L11/18

CPC classification number: B60L11/1866 ,  B60L1/00 ,  B60L1/02 ,  B60L1/14 ,  B60L11/1809 ,  B60L11/1855 ,  B60L11/1859 ,  B60L11/1862 ,  B60L2240/545 ,  B60L2240/547 ,  B60L2240/549 ,  B60L2250/12 ,  B60L2250/16 ,  B60R16/033 ,  H02J7/0021 ,  H02J7/0022 ,  H02J7/0026 ,  H02J7/0063 ,  H02J7/007 ,  H02J7/04 ,  H02J2007/0067 ,  Y02T10/7005 ,  Y02T10/7044 ,  Y02T10/7055 ,  Y02T10/7061

Abstract: A battery management apparatus and method for use in an electrical vehicle has a plurality of individual batteries 34 provided within a battery pack 10. The battery pack is coupled to power vehicle traction 12 and a plurality of individually connectable vehicle appliances 18-26. A monitor keeps track of charge state by means of a battery monitor 44 on each battery relaying instant current to a processor 27. In a first embodiment, a charge allocation profile for the whole battery pack 10 is used where different appliances 18-26 have different amounts of charge capacity allocated to them and are disconnected when discharge exceeds their allocation and are reconnected during charging when their charge is again found. In a second embodiment, individual batteries 34 and appliances 18-26 are connected within a network configuration allowing anything to be connected to anything else. Battery 10 segments can be created, each having one or more allocated individual batteries and each segment connected to selectable services 12 18-26 within the electric vehicle. Segmentation patterns can be changed. A segment charge allocation profile can be used within each segment in much the same way that the charge allocation profile can be used and changed for the first embodiment. Progressive charging and discharging of the battery is the end result.

Abstract translation: 在电动车辆中使用的电池管理装置和方法具有设置在电池组10内的多个单独电池34.电池组联接到动力车辆牵引件12和多个可单独连接的车辆装置18-26。 监视器通过电池监视器44跟踪电池监视器44，每个电池将瞬时电流中继到处理器27.在第一实施例中，使用整个电池组10的电荷分配简档，其中不同的电器18-26具有不同的电 分配给他们的电量容量，当放电超过其分配时断开连接，并在充电期间重新连接充电时再次找到充电容量。 在第二实施例中，单个电池34和电器18-26在网络配置内连接，允许任何东西与任何其他连接。 可以创建电池10段，每个段具有一个或多个分配的单个电池，并且每个段连接到电动车辆内的可选服务12-18-26。 分割模式可以改变。 可以以与第一实施例可以使用和改变电荷分配简档相同的方式在每个段内使用段电荷分配简档。 电池的逐步充放电是最终的结果。

公开(公告)号：WO2019116039A1

公开(公告)日：2019-06-20

申请号：PCT/GB2018/053618

申请日：2018-12-13

Applicant: CHINTALA, Sandeep Kumar

Inventor： CHINTALA, Sandeep Kumar ,  RASAKATLA, Sriranjan

IPC: H01L35/00 ,  H01L35/30 ,  H01L35/32 ,  H02M3/155 ,  H02J7/00

CPC classification number: H01L35/00 ,  H01L35/30 ,  H01L35/32 ,  H02J7/0081 ,  H02J7/32 ,  H02J7/345

Abstract: Techniques of thermoelectric power generation are described. In an example, a power generation system (100) may include a thermoelectric unit (102), a DC booster (104) and a supercapacitor unit (106). The thermoelectric unit (102) may generate electivity using heat, such as heat obtained from human body. The DC booster (104) may step up the voltage generated by the thermoelectric unit (102). The supercapacitor unit (106) may store electrical energy generated by the thermoelectric unit (102) and start discharging after a threshold level. The power generation system may be implemented to power a wearable device (304), such as fitness tracker and smartwatch.

公开(公告)号：WO2018096328A4

公开(公告)日：2018-05-31

申请号：PCT/GB2017/053507

申请日：2017-11-22

Applicant: CHINTALA, Sandeep Kumar

Inventor： CHINTALA, Sandeep Kumar

IPC: F25D31/00 ,  B65D81/18

Abstract: A portable container (100, 200) includes an insulative body (102) to hold a food item. The insulative body (102) may include an inner wall and an outer wall. Further, the portable container (100, 200) includes a temperature regulator (110) disposed between the inner wall and the outer wall of the insulative body (102). The portable container (100, 200) also includes a plurality of temperature sensors (202) disposed within the inner wall of the insulative body (102). The plurality of temperature sensors (202) being operably coupled to the temperature regulator (110). Further, the portable container (100, 200) includes a controller (210) communicatively coupled to the temperature regulator (110) to regulate the temperature of the food item based on a user input.

公开(公告)号：WO2018096328A2

公开(公告)日：2018-05-31

申请号：PCT/GB2017/053507

申请日：2017-11-22

Applicant: CHINTALA, Sandeep Kumar

Inventor： CHINTALA, Sandeep Kumar

IPC: F25D31/00 ,  B65D81/18

Abstract: Examples of a portable container (100, 200) are described herein. The portable container (100, 200) includes an insulative body (102) to hold a food item. The insulative body (102) may include an inner wall and an outer wall. Further, the portable container (100, 200) includes a temperature regulator (110) disposed between the inner wall and the outer wall of the insulative body (102). The portable container (100, 200) also includes a plurality of temperature sensors (202) disposed within the inner wall of the insulative body (102). The plurality of temperature sensors (202) being operably coupled to the temperature regulator (110). Further, the portable container (100, 200) includes a controller (210) communicatively coupled to the temperature regulator (110) to regulate the temperature of the food item based on a user input.

公开(公告)号：WO2021229500A1

公开(公告)日：2021-11-18

申请号：PCT/IB2021/054112

申请日：2021-05-13

Applicant: CHINTALA, Sandeep Kumar

Inventor： CHINTALA, Sandeep Kumar

IPC: B64C39/02 ,  A61L2/10 ,  A61L2/24

Abstract: Systems and methods for performing surveillance and sanitization operations using unmanned aerial vehicles (UAVs) (102, 200) is disclosed. The UAV (102, 200) includes a light source (212) to emit ultra-violet (UV) rays and at least one first sensor (208) to detect objects in an area. The UAV (102, 200) also includes a processor (202) to obtain information about an operational area of the UAV (102, 200). The operational area is indicative of an area over which the UAV (102, 200) hovers. The processor (202) may determine absence of an object, such as a person or an animal, in the operational area. Based on the determination, the light source (212) may be activated to sanitize the operational area.

公开(公告)号：WO2019158913A1

公开(公告)日：2019-08-22

申请号：PCT/GB2019/050378

申请日：2019-02-13

Applicant: CHINTALA, Sandeep Kumar

Inventor： CHINTALA, Sandeep Kumar

IPC: A01H1/02

Abstract: The present subject matter relates to a smart pollination system, which is a smart pollination apparatus (100). The smart pollination apparatus (100) is machine learned and uses artificial intelligence engine for pollination. The smart pollination apparatus (100) is communicatively coupled to a global communications system (GCS). The GCS and the smart pollination apparatus (100) manage the pollination trends with the help of artificial intelligence and machine learning.

公开(公告)号：WO2019053399A1

公开(公告)日：2019-03-21

申请号：PCT/GB2018/052536

申请日：2018-09-07

Applicant: CHINTALA, Sandeep Kumar

Inventor： CHINTALA, Sandeep Kumar ,  RASAKATLA, Sriranjan

IPC: G06F3/01 ,  A61B5/00 ,  G08C13/00 ,  G06F1/16

CPC classification number: G06F3/015 ,  A61B5/0476 ,  A61B5/1123 ,  A61B5/6803 ,  A61B5/681 ,  A61B5/6898 ,  G06F1/163 ,  G06F3/017 ,  G08C17/00 ,  G08C2201/32 ,  G08C2201/70 ,  G08C2201/91

Abstract: The present subject matter relates to a wearable device (108) for contactless operation of remotely controlled appliance (102) present inside an environment (100). The wearable device (108) may include a one motion sensor (202) to generate a motion signal based on a sensed movement of a body part of the user bearing the wearable device (108). In addition, the wearable device includes a brainwave sensor (204) to generate an EEG signal indicative of brain activity of the user. Further, the wearable device (108) includes a processor (206) that may select an appliance from amongst the plurality of remotely controllable appliances based on the motion signal and the EEG signal and control the selected remotely controlled appliance (102) based on the EEG signal over a wireless network.