A method of wireless communication is described. The method is performed by a user device and comprises: receiving, from a network device, at least one of measurement configuration information for configuring measurement parameters or measurement reporting information including a measurement report triggering condition; performing measurements based on the measurement configuration information received from the network device; and performing an evaluation for the measurement event according to the measurement report triggering condition.

A method of wireless communication is described. The method is performed by a user device and comprises: receiving, from a network device, at least one of measurement configuration information for configuring measurement parameters or measurement reporting information including a measurement report triggering condition; performing measurements based on the measurement configuration information received from the network device; and performing an evaluation for the measurement event according to the measurement report triggering condition.

An electronic device that assesses communication performance is described. During operation, the electronic device receives information specifying a location in an environment. For example, the information may correspond to user-interface activity associated with a user interface. Notably, the user interface may include an augmented reality and the user-interface activity may include defining the location, such as by dropping a pin in the augmented reality. Then, the electronic device provides the information to an access point and/or a controller of the access point, where the location is within communication range of the access point. Next, the electronic device receives, from the access point and/or the controller, measurements of one or more communication performance metrics at or proximate to the location during a time interval. Moreover, the electronic device provides a graphical representation of the communication performance at or proximate to the location based at least in part on the measurements.

An electronic device that assesses communication performance is described. During operation, the electronic device receives information specifying a location in an environment. For example, the information may correspond to user-interface activity associated with a user interface. Notably, the user interface may include an augmented reality and the user-interface activity may include defining the location, such as by dropping a pin in the augmented reality. Then, the electronic device provides the information to an access point and/or a controller of the access point, where the location is within communication range of the access point. Next, the electronic device receives, from the access point and/or the controller, measurements of one or more communication performance metrics at or proximate to the location during a time interval. Moreover, the electronic device provides a graphical representation of the communication performance at or proximate to the location based at least in part on the measurements.

The present disclosure relates to a communication method and system for converging a 5th-Generation (5G) communication system or networks beyond 5G communication system for supporting higher data rates beyond a 4th-Generation (4G) system with a technology for Internet of Things (IoT). The present disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services.

Disclosed is a method of a User Equipment, UE, providing overheating assistance to a telecommunication network, wherein the UE is arranged to provide the overheating assistance in one of two modes, wherein: in a first mode the UE reports details related to a first set of assistance parameters; and in a second mode the UE reports details related to a second set of assistance parameters, wherein a setting of the first set of parameters depends on a setting of the second set of parameters.

The present disclosure relates to a communication method and system for converging a 5th-Generation (5G) communication system or networks beyond 5G communication system for supporting higher data rates beyond a 4th-Generation (4G) system with a technology for Internet of Things (IoT). The present disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services.

Disclosed is a method of a User Equipment, UE, providing overheating assistance to a telecommunication network, wherein the UE is arranged to provide the overheating assistance in one of two modes, wherein: in a first mode the UE reports details related to a first set of assistance parameters; and in a second mode the UE reports details related to a second set of assistance parameters, wherein a setting of the first set of parameters depends on a setting of the second set of parameters.

A user equipment, UE (105), makes a plurality of attempts at random access to an access node (110). The UE transmits, to the access node (110), a report comprising Listen Before Talk, LBT, diagnostic data for each of the attempts at random access. The access node (110) receives, from the UE (105), the report and configures the UE (105) with an adjusted random access resource allocation based on the LBT diagnostic data of at least one of the attempts at random access.

A wireless communication method and a terminal device, the method including the following. A terminal device receives a media access control (MAC) control element (CE) transmitted from a network device, where the MAC CE indicates a first downlink configuration. The terminal device determines an effective time of the first downlink configuration and/or an effective time of the MAC CE according to a signal transmission RTT between the terminal device and the network device.

A wireless communication method and a terminal device, the method including the following. A terminal device receives a media access control (MAC) control element (CE) transmitted from a network device, where the MAC CE indicates a first downlink configuration. The terminal device determines an effective time of the first downlink configuration and/or an effective time of the MAC CE according to a signal transmission RTT between the terminal device and the network device.

A computer-implemented method for precision hyperbolic location fingerprinting, the method comprising, at a computing system, the steps of: (a) receiving measured RSSI values associated with a plurality of fixedly-positioned sensor devices, wherein the plurality of fixedly-positioned sensor devices are stationary in known locations in a 2D environment and caused to transit radio signals to each other and measure characteristics of the received radio signals; (b) generating a raw RSSI fingerprint for each sensor device based on the measured RSSI values; (c) generating a log-ratio RSSI fingerprint between a pair of sensor devices; (d) normalizing the raw RSSI fingerprint and normalizing the log-ratio RSSI fingerprint; (e) combining the raw RSSI fingerprint and the log-ratio RSSI fingerprint to form a fusion RSSI fingerprint; and (f) repeating steps (a) to (e) at predetermined intervals to enhance prediction accuracy of regional fingerprints within the environment.