Abstract:
A secure remote actuation system includes a remote input receptor that receives one or more user inputs from a user, a cloud-based network stores the one or more acceptable inputs, a network device obtains the one or more user inputs from the remote input receptor, the network device obtains the one or more user inputs from the remote input receptor while the user is using the user interface, a cloud-based network compares the one or more user inputs to the one or more acceptable inputs, the acceptable inputs at least partially derived from dynamically changing environmental parameters, and a remote device is controlled based on the comparison of the one or more user inputs to the one or more acceptable inputs.
Abstract:
A secure remote actuation system that communicates at sub-1 GHz frequencies is described herein. The system may comprise a remote input receptor and a network. The remote input receptor may comprise a user interface for receiving user inputs from a user and a communication device that communicates at sub-1 GHz frequencies. The network may comprise a combination of computer systems interconnected by telecommunications equipment or cables allowing information to be exchanged. The network may also comprise a network device for obtaining the user inputs from the remote input receptor. One or more acceptable inputs may be stored on the network. In the present invention, the network device obtains the user inputs from the remote input receptor while the user is using the user interface and then the network compares the user inputs to the acceptable inputs.
Abstract:
A secure remote operation and actuation system is described herein. The system may comprise one or more unmanned aerial vehicles, a remote input receptor, and a network. In some embodiments, the unmanned aerial vehicles form a collective remote unmanned aerial vehicle. The remote input receptor may comprise a user interface for receiving user inputs from a user. The network may comprise a combination of computer systems interconnected by telecommunications equipment or cables allowing information to be exchanged. The network may also comprise a network device for obtaining the user inputs from the remote input receptor. One or more acceptable inputs may be stored on the network. In the present invention, the network device obtains the user inputs from the remote input receptor while the user is using the user interface and then the network compares the user inputs to the acceptable inputs.
Abstract:
A secure remote actuation system may comprise a remote input receptor and a network. The remote input receptor may comprise a user interface for receiving user inputs from a user and one or more data connection ports. The network may comprise a combination of computer systems interconnected by telecommunications equipment or cables allowing information to be exchanged. The network may also comprise a network device for obtaining the user inputs from the remote input receptor. One or more acceptable inputs may be stored on the network. In the present invention, the network device obtains the user inputs from the remote input receptor while the user is using the user interface and then the network compares the user inputs to the acceptable inputs.
Abstract:
A method for more efficiently delivering goods to recipients is disclosed. Such a method includes generating an access code configured to enable access to an enclosure. The method further monitors a status of a delivery of goods intended for deposit in the enclosure. This may be accomplished, for example, by monitoring a package tracking system used to monitor and track delivery of the goods. In response to detecting fulfillment of the delivery, the method automatically causes the access code to expire. A corresponding system is also disclosed.
Abstract:
A method for detecting potentially unauthorized access to an enclosure is disclosed. Such a method includes detecting movement (e.g., opening and/or closing) of an access barrier of an enclosure. The method further detects whether a motor was used to move the access barrier. This may be accomplished, for example, by detecting electrical current drawn by the motor, vibration of the motor, voltage drop of electrical power supplied to the motor, rotation of the motor, or the like. In the event the access barrier was moved without using the motor, the method notifies a user, such as by sending an email or text message to the user. A corresponding system is also disclosed.
Abstract:
An apparatus for distributing data using a short-range wireless interconnection protocol for electronic devices includes a processor communicatively connected, using a communication bus, to a number of originator antennas, each of the number of originator antennas communicating with an originating device, a plurality of device antennas, communicatively connected to the communication bus, each of the plurality of device antennas communicating with a number of client devices, and a non-transitory storage medium. The non-transitory storage medium includes a receive module, a session identify module, and a send module. The receive module receives a data packet using one of the number of originator antennas. The session identify module identifies at least one communication session with at least one remote device associated with one of the plurality of device antennas. The send module sends the data packet to the at least one remote device associated with one of the plurality of device antennas.
Abstract:
A flora or fauna retrieval apparatus, comprising a frame mechanically connected to a transportation module to move the apparatus. The apparatus may comprise a location identification module, a number of flora or fauna attribute sensors communicatively connected to a communication module, and a flora or fauna storage container. The communication module may be configured to communicate with a computing device to exchange information about the animals or plants to be retrieved, and obtain information about optimal conditions for animals or plants scheduled for delivery. The flora or fauna storage container may comprise a temperature regulator, an aperture to let in air, and a humidity controller. The aperture may be adjustable. The temperature regulator, aperture, and humidity controller may use the information about optimal conditions for animals or plants scheduled to be delivered, to adjust the conditions of the flora or fauna storage container to remain within the optimal conditions for animals or plants scheduled to be delivered.
Abstract:
A method for communicating between a remote device and a control server is described. The method include receiving a reduced packet when a reduced server identifier matches a control server, identifying the control server, constructing a device network packet, sending the device network packet to the control server, accepting a control network packet, building a reduced control packet, and transmitting the reduced control packet to the remote device.
Abstract:
Disclosed herein are low data rate electronic devices capable of wireless communication at ranges of thousands of meters. These devices may be such things as keypads, door latches, occupancy monitors, sprinkler controllers and other devices controlled or monitored in a campus or a collection of buildings. These devices operate at intermediate ranges in RF congested areas and failure-intolerant situations through the use of discrete programmable channels. Devices may measure the quality of a communications link on a channel, and apply varying levels of redundancy based upon a recent history of success and failure of packet transmission to other distant devices, which measurement may be a value of badness increased as errors are encountered and decreased as packet communication is successful. Detailed information on various example embodiments of the inventions are provided in the Detailed Description below, and the inventions are defined by