A master communication apparatus communicates with a slave communication apparatus. A communication interface communicates with the slave communication apparatus. A receiving interface receives information on a first frequency of a station selected by a receiver of broadcast. When a difference between the first frequency included in the information received by the receiving interface and a second frequency of a communication rate used in communication with the slave communication apparatus is smaller than a threshold value, the communication interface changes the communication rate to a third frequency different from the second frequency. When the communication interface changes the communication rate from the second frequency to the third frequency, the communication interface transmits change information indicating a change to the third frequency to the slave communication apparatus.

A method and apparatus for relaxation of mobility condition based on serving cell quality is provided. A wireless device, which has been configured with conditional mobility, performs a conditional mobility to a target cell by using a mobility condition related to the target cell upon detecting a radio link problem on a serving cell.

The present application is related to a method of failure handling in conditional handover. A method performed by a user equipment (UE) comprises: receiving a Conditional Handover (CHO) configuration; initiating a re-establishment procedure if one of a plurality first conditions is met; performing a cell selection procedure; performing a CHO procedure if a cell selected through the cell selection procedure is configured with the CHO configuration; and performing the re-establishment procedure if the selected cell is not configured with the CHO configuration.

A method performed by a wireless device (12) comprises detecting (310) consistent uplink listen-before-talk, LBT, failure. The method also comprises considering or not considering (320) radio link failure to be detected due to detecting (310) consistent uplink LBT failure, depending respectively on whether the wireless device (12) is not monitoring or is monitoring for a problem with a certain procedure (18) when consistent uplink LBT failure is detected.

Various embodiments of the disclosure relate to an apparatus and method for providing a call function in an electronic device. The electronic device includes first communication circuitry, second communication circuitry, and a processor. The processor registers with a network using NR communication through the first communication circuitry, identifies whether a call connection using a network using the wireless LAN communication is possible, based on determination that establishment of a communication link related to a call connection with an external electronic device using the network using the NR communication and/or a network using LTE communication fails, and connects a call with the external electronic device over the network using the wireless LAN communication, based on determination that the call connection using the network using the wireless LAN communication is possible. Other embodiments may be possible.

A beam switching method, a mobile terminal and a computer-readable storage medium are provided. The method includes: monitoring whether a first blockage event occurs to an antenna of a terminal; and transmitting a beam switching request to a network-side device, in a case that the first blockage event occurs. The first blockage event comprises that a quality loss occurs to beam links corresponding to at least a second predetermined number of downlink beams, the second predetermined number of downlink beams are from a first predetermined number of downlink beams corresponding to one antenna panel of the terminal, and the first predetermined number is greater than or equal to the second predetermined number.

Aspects disclosed herein facilitate security handling of 5GS to EPC reselection are disclosed herein. An example method at a UE includes transmitting a first TAU request, the first TAU request encoded using a first security context associated with a first RAT, the first TAU request being integrity protected using a first uplink count based on the first security context, and the first TAU request including a first set of information including an identifier mapped to a second RAT associated with the first network entity. The example method also includes transmitting a second TAU request, the second TAU request including the first set of information, the second TAU request being integrity protected using a second uplink count. The example method also includes communicating based on a mapped security context based on the first security context and at least one of the first uplink count or the second uplink count.

Systems and methods for performing Evolved Packet System (EPS) fallback from a 5G system to an Evolved Packet Core (EPC) system are disclosed. The method, performed in a mobile device, detects a communication at the mobile device. The method then determines whether either the mobile device or a base station supports the communication over new radio. Directly in response to determining that either one of the mobile device or the base station does not support the communication over new radio, the method generates and transmits an EPS fallback message from the mobile device to the base station, wherein the EPS fallback message instructs the base station to initiate a fallback procedure from the 5G system to the EPC system.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may transmit a message including an indication that the UE is in a power-saving mode. The UE may receive a configuration, for a connected state of the UE, that is based at least in part on the indication. The UE may operate in the connected state according to the configuration. Numerous other aspects are provided.

A method for routing data in a network includes receiving, by a first network node, data to be routed using a first layer protocol to a second network node where the first network node is intermittently connected to the second network node over a link spanning a portion of the network. The first network node determines that the link fails to meet a communications criteria and encapsulates the data using a second layer protocol to produce encapsulated data. The second layer protocol is transparent to the first layer protocol and the encapsulated data includes connectivity instructions to route the encapsulated data to the second network node via a third network node. The second network node and the third network node are in communication across the portion of the network and the first network node is able to transmit the encapsulated data to the third network node.