A vehicle communication system includes a central device and an on-vehicle device. A path determiner of the central device determines an information transmission path between a plurality of vehicles for consolidating information in a vehicle that performs a wireless communication with a terrestrial communication device out of the vehicles based on at least operating information on the vehicles. An on-vehicle communicator of the on-vehicle device acquires the information transmission path directly from the central device via the terrestrial communication device or indirectly from the central device via the terrestrial communication device and a second vehicle, and transmits and receives predetermined information to and from the terrestrial communication device or the second vehicle based on the acquired information transmission path.

A method and a base station for determining transmission paths are provided. The method includes determining that multiple transmission paths are to be configured for each of one or more terminals, and determining first configuration information of a terminal group corresponding to each terminal, which is used for configuring multiple transmission paths for a terminal in the terminal group. The disclosure reduces the complexity and computation amount of configuring transmission paths and improves the system performance.

An information handling system includes an application processor that executes instructions to determine one or more communication link options and a wireless adapter that communicates with a conditional shared spectrum wireless link option. The application processor determines whether a higher priority user is occupying the conditional shared spectrum wireless link option and determines an optimal wireless link from among the communication link options, including any available conditional shared spectrum wireless link options, and selects a wireless link from among the wireless link options based on a spatial-temporal radio frequency profile that indicates signal quality for wireless links available at the location and a spatial-temporal user profile, including wireless service usage trend data for the location.

An information handling system includes an application processor that executes instructions to determine one or more communication link options and a wireless adapter that communicates with a conditional shared spectrum wireless link option. The application processor determines whether a higher priority user is occupying the conditional shared spectrum wireless link option and determines an optimal wireless link from among the communication link options, including any available conditional shared spectrum wireless link options, and selects a wireless link from among the wireless link options based on a spatial-temporal radio frequency profile that indicates signal quality for wireless links available at the location and a spatial-temporal user profile, including wireless service usage trend data for the location.

A method and an apparatus for managing an IoT device, and a computer readable storage medium are disclosed. The method for managing an IoT device includes creating a group resource, the group resource including a first member and a first preset condition, determining, from a plurality of IoT devices, at least one IoT device whose relationship with the first member satisfies the first preset condition as a second member of the group resource, wherein the first preset condition comprises at least one of the following: a distance between the second member and the first member being less than a first distance threshold, and a difference between a communication signal intensity of the second member and a communication signal intensity of the first member being less than a first intensity difference threshold.

A method and an apparatus for managing an IoT device, and a computer readable storage medium are disclosed. The method for managing an IoT device includes creating a group resource, the group resource including a first member and a first preset condition, determining, from a plurality of IoT devices, at least one IoT device whose relationship with the first member satisfies the first preset condition as a second member of the group resource, wherein the first preset condition comprises at least one of the following: a distance between the second member and the first member being less than a first distance threshold, and a difference between a communication signal intensity of the second member and a communication signal intensity of the first member being less than a first intensity difference threshold.

A method for selecting best radio signal in air traffic control includes: determining a respective latency of at least two receiving channels, wherein each receiving channel is provided between a corresponding receiver and a measurement and analysis module; measuring a respective arrival time of at least two radio signals received via the at least two receiving channels by the measurement and analysis module; determining the delay time between the at least two radio signals based on their arrival times; aligning the at least two radio signals with each other by taking the delay time determined into account, thereby obtaining at least two aligned signals; determining the quality of the at least two aligned signals; and switching to the receiving channel that processes the respective radio signal with the best quality determined. Further, an air traffic control system for selecting best radio signal is described.

A method for selecting best radio signal in air traffic control includes: determining a respective latency of at least two receiving channels, wherein each receiving channel is provided between a corresponding receiver and a measurement and analysis module; measuring a respective arrival time of at least two radio signals received via the at least two receiving channels by the measurement and analysis module; determining the delay time between the at least two radio signals based on their arrival times; aligning the at least two radio signals with each other by taking the delay time determined into account, thereby obtaining at least two aligned signals; determining the quality of the at least two aligned signals; and switching to the receiving channel that processes the respective radio signal with the best quality determined. Further, an air traffic control system for selecting best radio signal is described.

The subject matter described herein is directed towards a technology that increases the reliability of transmitting information, by propagating received information in a location-controlled and route managed multiple-stage chain communication in a wireless communication system. A transmitting device transmits a broadcast or group-cast communication message in conjunction with transmitter and receiver location data (e.g., absolute or quantized coordinates). An intermediate device that receives the communication message determines a communication path based on the received location data, and determines whether the intermediate device is within the communication path based on its own location. Only intermediate devices that are within the communications path, and that otherwise satisfy retransmission policy, perform the retransmission. In one aspect, the communication path that is determined can be shaped based on one or more other factors, such as whether the communication message is highly reliable data traffic.

The subject matter described herein is directed towards a technology that increases the reliability of transmitting information, by propagating received information in a location-controlled and route managed multiple-stage chain communication in a wireless communication system. A transmitting device transmits a broadcast or group-cast communication message in conjunction with transmitter and receiver location data (e.g., absolute or quantized coordinates). An intermediate device that receives the communication message determines a communication path based on the received location data, and determines whether the intermediate device is within the communication path based on its own location. Only intermediate devices that are within the communications path, and that otherwise satisfy retransmission policy, perform the retransmission. In one aspect, the communication path that is determined can be shaped based on one or more other factors, such as whether the communication message is highly reliable data traffic.