In one embodiment, a device assigns a first radio of an access point in a wireless network to a client serving role and a second radio of the access point to a channel monitoring role. The device associates a wireless client with the first radio. The device determines that the wireless client is a low bandwidth client. The device switches the wireless client from the first radio to the second radio of the access point assigned to the channel monitoring role.

A wireless User Equipment (UE) controls a wireless data service that is received from a wireless communication network over a radio band. In the wireless UE, a radio wirelessly exchanges user data with the communication network over the radio band to receive the wireless data service. The radio wirelessly receives a communication performance metric from the wireless communication network over the radio band. The communication performance metric characterizes the wireless data service received by the wireless UE over the radio band. In the wireless UE, user circuitry translates the communication performance metric into a service instruction for the wireless UE over the radio band. The radio wirelessly transfers the service instruction for the wireless UE to the wireless communication network over the radio band. The wireless communication network modifies the wireless data service for the wireless UE responsive to the service instruction.

An electronic monitoring device and system uses a wearable monitoring device in conjunction with an associated smartphone's location services to track a person's location. Cameras or biometric sensors associated with the smartphone allow incremental responses to apparent violations by requiring the wearer to check-in using a photograph, biometric data, GPS location, and other relevant information. The system optimizes compliance by tracking KPIs and using predictive analytics to adjust compliance programs as they apply to client throughout the system.

An electronic monitoring device and system uses a wearable monitoring device in conjunction with an associated smartphone's location services to track a person's location. Cameras or biometric sensors associated with the smartphone allow incremental responses to apparent violations by requiring the wearer to check-in using a photograph, biometric data, GPS location, and other relevant information. The system optimizes compliance by tracking KPIs and using predictive analytics to adjust compliance programs as they apply to client throughout the system.

This application provides an interference randomization method and apparatus, to resolve a problem of continuous interference that may be caused by a configuration of a reference signal, especially a positioning reference signal, in a beam scenario. The method includes: A terminal device receives interference randomization configuration information, where the interference randomization configuration information includes configuration information in at least two time periods, receiving modes of a reference signal in the at least two time periods are different, and the receiving mode is used to indicate a receiving status of the terminal device for the reference signal on a reference signal resource or a reference signal resource set. The terminal device receives the reference signal based on the interference randomization configuration information.

This application provides an interference randomization method and apparatus, to resolve a problem of continuous interference that may be caused by a configuration of a reference signal, especially a positioning reference signal, in a beam scenario. The method includes: A terminal device receives interference randomization configuration information, where the interference randomization configuration information includes configuration information in at least two time periods, receiving modes of a reference signal in the at least two time periods are different, and the receiving mode is used to indicate a receiving status of the terminal device for the reference signal on a reference signal resource or a reference signal resource set. The terminal device receives the reference signal based on the interference randomization configuration information.

A terminal receives beams from a plurality of cells that include a non-serving cell and are formed by the same base station. The terminal determines a beam failure or a candidate beam by identifying received signals of the beams from the plurality of cells that include the non-serving cell.

A terminal receives beams from a plurality of cells that include a non-serving cell and are formed by the same base station. The terminal determines a beam failure or a candidate beam by identifying received signals of the beams from the plurality of cells that include the non-serving cell.

Aspects of the present disclosure relate to wireless communications, and more particularly, to mobility techniques that allow for dynamically updating a set of cells activated to serve a user equipment (UE) based on physical (PHY) layer or medium access layer (MAC) layer measurement procedures. An example method generally includes receiving signaling configuring the UE with a set of cells that support physical (PHY) layer or medium access control (MAC) layer mobility signaling and with a measurement configuration for the set of cells, participating in a physical (PHY) layer or medium access control (MAC) layer measurement procedure with one or more cells in the set of cells, receiving PHY layer or MAC layer mobility signaling based on participating in the PHY layer or MAC layer measurement procedure, and updating a subset of activated cells for serving the UE based on the mobility signaling.

Aspects of the present disclosure relate to wireless communications, and more particularly, to mobility techniques that allow for dynamically updating a set of cells activated to serve a user equipment (UE) based on physical (PHY) layer or medium access layer (MAC) layer measurement procedures. An example method generally includes receiving signaling configuring the UE with a set of cells that support physical (PHY) layer or medium access control (MAC) layer mobility signaling and with a measurement configuration for the set of cells, participating in a physical (PHY) layer or medium access control (MAC) layer measurement procedure with one or more cells in the set of cells, receiving PHY layer or MAC layer mobility signaling based on participating in the PHY layer or MAC layer measurement procedure, and updating a subset of activated cells for serving the UE based on the mobility signaling.