A method performed by a UE (102) that is being served by at least a first cell. The method includes the UE performing a multi round-trip-time, multi-RTT, positioning measurement (e.g., a UE Rx-Tx measurement), wherein the UE is configured with SRS for the measurement with respect to a second cell. The method also includes the UE detecting a need to change a serving cell. The method further includes, as a result of detecting the need to change a serving cell, the UE deciding whether to restart or continue performing the multi-RTT measurement. The UE is configured such that the UE continues the multi-RTT measurement if the serving cell change is for a cell different than the second cell in which the UE is configured with the SRS for the measurement.)

A communication apparatus includes a radio transceiver, an application processor and a modem processor. The radio transceiver transmits or receives wireless signals to or from a network device in a wireless network to communicate with the network device via a communication link. The application processor is configured to run one or more application programs. The modem processor is coupled to the radio transceiver and the application processor and configured to perform operations including: evaluating a future condition of the communication link according to at least one communication parameter or at least one communication event to obtain an evaluation result; and sending a first indication to the application processor to inform the application processor of the evaluation result. Responsive to reception of the first indication, the application processor is further configured to perform operation including: adapting a codec for multimedia processing of data received from the network device.

Methods, systems, and devices for wireless communications are described. A user equipment (UE) may perform a measurement operation to attain multiple measurements to report to a base station. The measurements may correspond to a first number of bits if reported. The UE may compress the measurements using an encoder neural network (NN) to obtain an encoder output indicating the measurements. This encoder output may include a second number of bits that is less than the first number of bits. The UE may report the encoder output to the base station in this compressed form. At the base station, the encoder output may be decompressed according to a decoder NN. Once the base station decompresses the encoder output, the UE and base station may communicate according to the measurements determined from the decompression. In some cases, the base station may perform load redistribution based on the measurements.

An information transmission method including: performing a compliance check on a cell configuration of a target cell included in a conditional handover command; when the compliance check on the cell configuration fails, at least recording a cell identifier of the target cell; and reporting failure record information including the cell identifier.

A method performed by a first base station, is described. The first base station determines a change in one or more measurements to be performed by a UE. The measurements are associated with a first set of frequencies. The first base station also transmits a first message to a second base station comprising information regarding which frequencies in the first set are to be changed. The first base station and the second base station serve the UE. A method performed by the second base station is also described whereby the second base station receives the first message. In a method performed by the UE, the UE receives, from the first base station, a configuration message configured to specify the measurements to perform and a measurement gap configuration. The UE then takes the measurements based on the configuration message.

Systems and methods are disclosed herein for configuration of multi-Radio Access Technology (RAT) early measurements. In one embodiment, a method performed by a wireless communication device comprises receiving system information from a first cell of a first network node and receiving a dedicated release message from the first cell comprising idle mode measurement configurations for a first RAT and/or a second RAT. The method further comprises performing a reselection to a second cell served by a second network node and receiving system information from the second cell comprising idle mode measurement configurations for the first RAT and/or for the second RAT. The method further comprises determining idle mode measurement configurations to be applied while in the second cell based on the idle mode measurement configurations comprised in the dedicated release message from the first cell and the idle mode measurement configurations comprised in the system information from the second cell.

A data transmission method, a device, and a medium are provided. The data transmission method includes: sending first notification information to a second target device in a case that a wireless link between a relay terminal device and a first target device is abnormal. The first notification information is used to reduce data traffic transmitted from the second target device to the relay terminal device or to stop data transmission between the second target device and the relay terminal device.

A capability interaction method and a related device capable of enabling a network device to learn about capability information of an adjacent network device. The method comprises: obtaining capability information of at least one adjacent network device and/or at least one adjacent cell; and determining, on the basis of the capability information of the adjacent network device and/or at least one adjacent cell, a configuration of a radio resource for at least one terminal device.

The present disclosure relates to a communication technique for fusing, with an IoT technology, a 5G communication system for supporting a higher data transfer rate than a 4G system, and a system therefor. The present disclosure may be applied to intelligent services, such as smart homes, smart buildings, smart cities, smart cars or connected cars, health care, digital education, retailing, security and safety-related services, etc. on the basis of 5G communication technologies and IoT-related technologies. Disclosed in the disclosure is a method for measurement report/event operation and network signaling in an UE autonomous handover.

A wireless terminal comprises processor circuitry and receiver circuitry. The processor circuitry is configured to establish a first radio connection with a master access node. The receiver circuitry is configured to receive a re-configuration message comprising one or more conditional secondary cell configurations. Each of the conditional secondary cell configurations may comprise an identity of a candidate primary secondary cell, each of the conditional secondary cell configurations being associated with at least one triggering condition, the candidate primary secondary cell being used for Dual-Connectivity. The processor circuitry is further configured in accordance with the conditional secondary cell configurations to establish a second radio connection with a secondary access node serving the candidate primary secondary cell included in the each of the conditional secondary cell configurations in a case that the at least one triggering condition associated with the each of the one or more conditional secondary cell configurations is met.