A remote controlled device comprises one or more memories and one or more processors. The one or more processors are configured to, when an event relating to a task being executed by a remote control object occurs: transmit information on a subtask of the task, receive a command relating to the subtask, and execute the task based on the command.

A wireless data telemetry system for use in a drilling system can include a drill head wireless transmitter and at least one data link transceiver. The drill head wireless transmitter can be in a drill head of the drilling system, the drill head wireless transmitter configured to generate and transmit one or more data signals associated with a drilling process. The at least one data link transceiver can be wirelessly coupled to at least one of the drill head wireless transmitter or another data link transceiver, with the drill head wireless transmitter and the at least one data link transceiver configured to be physically coupled within a drill string and spaced apart from one another. The drill head wireless transmitter and the at least one data link transceiver together configured to wirelessly communicate the one or more data signals beyond a transmission range of the drill head wireless transmitter.

A device-registration-work assisting system includes a plurality of notification units, and a mobile terminal carriable by a worker. Each notification unit is built in or disposed near one of a plurality of devices subjected to registration work. The mobile terminal includes a display unit configured to display information regarding each of the devices, and a selection unit configured to select a corresponding one of the devices. The notification unit is configured to notify the worker by light, sound, or motion in response to the corresponding device being selected with the selection unit.

A method includes receiving initial sensor data and additional sensor data; and generating combined sensor data. A computing device for includes one or more processors; and one or more memories coupled to the one or more processors, the one or more memories including non-transitory computer executable instructions stored therein that, when executed by the one or more processors, cause the one or more processors to: receive initial sensor data and additional sensor data; and generate combined sensor data. A computer readable storage medium includes non-transitory computer readable instructions stored thereon for generating data regarding a vehicle crash, wherein the instructions when executed on one or more processors cause the one or more processors to: receive initial sensor data and additional sensor data; and generate combined sensor data.

The present invention solves a very complex problem that is a major obstacles for electric utility industry's power lines vegetation encroachment management business. Vegetation contacts to the high voltage overhead power lines cause flash-over and/or blackout which results in hazardous situations and economic losses. Power line vegetation management is a very cost intensive business process which is essential to ensure safe, reliable and affordable electric energy supply by the electric utilities, transmission and generation owners. This routine electric utility vegetation management related work is mandated and overseen by applicable federal, state or local regulatory agencies. The state-of-the-art vegetation management process involves labor and cost intensive foot-patrol, vehicular patrol, air patrol and airborne LIDAR patrol of power lines. These methods are often inefficient, unreliable, risky and costly. The present invention provides a method and system for automated vegetation growth, condition and status monitoring near high voltage utility electric lines using stationary sensors, wireless or wired communications and computation technologies and proprietary algorithms. The method and system of the current invention monitors the power line infrastructures remotely and advises the vegetation maintenance crews on mitigating actions without requiring human interventions, thus saving cost and reducing risks to the humans and environment. A comprehensive vegetation encroachment condition report with vegetation proximity advisory (VPA) and vegetation resolution advisory (VRA) is automatically generated and transmitted to the operational staff by the system for each electric line span at certain time interval or continuously without boots-on-the-ground manual asset inspection and/or air patrol using aircraft. This current invention is an automated, safer and low-cost solution to an electric utility industry's essential reliability and compliance related business process.

Described herein are novel uses of sensor fusion related to cryptographic implementations. A sensor platform is employed to generate a cryptographic token that is representative of the “biometrics” of a moment in spacetime. The cryptographic tokens are purposefully (as opposed to random) generated keys/passwords or data scrambling elements. A given computer resource is tied to a detected ground truth event, and then the cryptographic token is employed as a manner to connect a user to that computer resource.

The disclosure includes embodiments for message management by an ego vehicle for a Vehicle-to-Everything (V2X) channel used in V2X messages for providing a cooperative driving service. In some embodiments, the method includes receiving a first V2X message including remote sensor data recorded by a remote vehicle. The method includes causing an onboard sensor set of the ego vehicle to record ego sensor data. The method includes determining a channel busy ratio of the V2X channel. The method includes determining a set of factors affecting a state of a recipient vehicle that receives a second V2X message. The method includes selecting a cooperation message species class and an aggregation message species class of the second V2X message based on the set of factors and the state of the recipient vehicle. The method includes selecting, from a set of available classes, a specific class of the second V2X message.

A method includes periodically sending an Advanced Meter Reading (AMR) beacon from a node at a first regular time interval, the AMR beacon containing a register identification (ID) and a reading detected by the node, and periodically listening, at the node, for a hail message such that instances of listening occur at a second regular time interval smaller than the first regular time interval. The node can also be configured to receive a mobile command from a mobile transceiver, as well as a Network System Status Request and a parent assignment command from a stationary transceiver.

A head guard is provided. The head guard includes one or more sensors as part of an sensory input and communications system. The head guard wirelessly communicates data to remote computing devices for intelligent data collection.

A method for generating data regarding a vehicle crash includes receiving initial sensor data, determining that the initial sensor data includes sensor data indicating a crash has occurred, receiving additional sensor data; and generating combined sensor data. A computing device for generating data regarding a vehicle crash includes a processor and a memory including instructions that when executed cause the processor to receive initial sensor data, determine that the initial sensor data includes sensor data indicating that a crash has occurred, receive additional sensor data; and generate combined sensor data. A computer readable storage medium includes non-transitory computer readable instructions stored thereon for generating data regarding a crash, wherein the instructions when executed cause a processor to receive initial sensor data; receive additional sensor data, determine that the initial sensor data includes sensor data indicating that a crash has occurred; and generate combined sensor data.