Provided is a method and system for optimizing utilization and performance of one or more unlicensed bands in a network (Wi-Fi and Citizens Broadband Radio Service (CBRS)) through a client device application that communicates with a central node deployed on a cloud platform. The method and system collects Radio Frequency (RF) measurements from a plurality of client devices and from a plurality of nearby point of attachments (PoAs) and transmits the collected RF measurements to the cloud platform. An optimal transmission channel/network in the one or more unlicensed bands is then calculated for one or more nearby PoAs using an Artificial Intelligence (AI) module based on the RF measurements, which utilizes a Dynamic Frequency Selection (DFS), an Automated Frequency Coordinator (AFC) and a Spectrum Access System (SAS) to select the optimal transmission channel/network based on the data-rate result received from the DFS, AFC and SAS.

Provided is a method and system for optimizing utilization and performance of one or more unlicensed bands in a network (Wi-Fi and Citizens Broadband Radio Service (CBRS)) through a client device application that communicates with a central node deployed on a cloud platform. The method and system collects Radio Frequency (RF) measurements from a plurality of client devices and from a plurality of nearby point of attachments (PoAs) and transmits the collected RF measurements to the cloud platform. An optimal transmission channel/network in the one or more unlicensed bands is then calculated for one or more nearby PoAs using an Artificial Intelligence (AI) module based on the RF measurements, which utilizes a Dynamic Frequency Selection (DFS), an Automated Frequency Coordinator (AFC) and a Spectrum Access System (SAS) to select the optimal transmission channel/network based on the data-rate result received from the DFS, AFC and SAS.

A vehicle connectivity and communication device includes at least one transmitter/receiver for establishing and maintaining communications with a system for controlling and/or monitoring vehicles and/or traffic over at least two different communications infrastructures, at least one sensor for measuring and reporting a performance characteristic of communication over the different communications infrastructures, and a controller for selecting an active communications infrastructure based on the measured performance characteristic.

A vehicle connectivity and communication device includes at least one transmitter/receiver for establishing and maintaining communications with a system for controlling and/or monitoring vehicles and/or traffic over at least two different communications infrastructures, at least one sensor for measuring and reporting a performance characteristic of communication over the different communications infrastructures, and a controller for selecting an active communications infrastructure based on the measured performance characteristic.

A method for improving wireless communication for a drone swarm, the method comprising, at a computing system, receiving, from a plurality of drones of a drone swarm, data comprising radio frequency signal characteristics detected by the plurality of drones; generating a model of a radio frequency environment for the drone swarm based on the data received from the plurality of drones; and controlling at least one wireless communication system to improve wireless communication for the drone swarm based on the model of the radio frequency environment.

A method for improving wireless communication for a drone swarm, the method comprising, at a computing system, receiving, from a plurality of drones of a drone swarm, data comprising radio frequency signal characteristics detected by the plurality of drones; generating a model of a radio frequency environment for the drone swarm based on the data received from the plurality of drones; and controlling at least one wireless communication system to improve wireless communication for the drone swarm based on the model of the radio frequency environment.

Aspects presented herein may enable a transmitting device, such as a base station, to compress tone reservation signaling for PAPR reduction, such that the transmitting device may indicate to a receiving device the location of reserved tones and data tones of a transmission with a small payload. In one aspect, a base station estimates an UL channel based on one or more SRSs from a UE, the estimated UL channel corresponding to a DL channel. The base station selects a plurality of TR locations associated with at least one of the DL channel or the UL channel. The base station transmits, to the UE, an indication of the plurality of TR locations associated with at least one of the DL channel or the UL channel.

Aspects presented herein may enable a transmitting device, such as a base station, to compress tone reservation signaling for PAPR reduction, such that the transmitting device may indicate to a receiving device the location of reserved tones and data tones of a transmission with a small payload. In one aspect, a base station estimates an UL channel based on one or more SRSs from a UE, the estimated UL channel corresponding to a DL channel. The base station selects a plurality of TR locations associated with at least one of the DL channel or the UL channel. The base station transmits, to the UE, an indication of the plurality of TR locations associated with at least one of the DL channel or the UL channel.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a base station may transmit a keep-alive signal that indicates a presence of a cell in an energy saving mode. The base station may transmit a synchronization signal block (SSB) burst set based at least in part on the keep-alive signal. Numerous other aspects are described.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a base station may transmit a keep-alive signal that indicates a presence of a cell in an energy saving mode. The base station may transmit a synchronization signal block (SSB) burst set based at least in part on the keep-alive signal. Numerous other aspects are described.