A method and a user equipment (UE) for resource selection approach adaptation are provided. The method includes receiving, from a Base Station (BS), a first Sidelink (SL) transmission resource pool configuration and a second SL transmission resource pool configuration; performing a first resource selection on a first SL transmission resource pool by applying a first resource selection approach; receiving, from the BS, an adaption indication that a second resource selection approach is to be applied; performing, during a transition period between a time at which the adaption indication is received and a time at which the second resource selection approach is applied, a second resource selection on a second SL transmission resource pool by applying a third resource selection approach; and performing, after the transition period, a third resource selection on the first SL transmission resource pool by applying the second resource selection approach indicated by the adaption indication.

Aspects of the present disclosure provide a method for wireless communications by a user equipment (UE). The method generally includes receiving a measurement configuration, wherein the measurement configuration indicates at least one or more frequency bands, determining, based on one or more parameters, a periodicity for measuring the at least one or more frequency bands, and performing measurements of the at least one or more frequency bands according to the determined periodicity.

This application provides a data transmission method and related apparatus. The data transmission method is applied to a communications system. An access point in the communications system includes a first communications apparatus and a second communications apparatus, and a station in the communications system includes a third communications apparatus and a fourth communications apparatus. The data transmission method includes that after failing to send a first data frame to the third communications apparatus through a first channel, the first communications apparatus retransmits the first data frame, and sends a same second data frame to the second communications apparatus. The first communications apparatus receives a first notification message sent by the second communications apparatus. The first communications apparatus stops, in response to the first notification message, sending the first data frame.

Methods and apparatus are described. A long term evolution-advanced (LTE-A) wireless transmit/receive unit (WTRU) includes a transceiver and a processor. The transceiver receives discontinuous reception (DRX) configuration information. The processor, in response to the received DRX information, controls the transceiver to monitor LTE-A physical downlink control channels (PDCCHs) in subframes in a first frequency band during an active time. The processor further, in response to detecting a downlink assignment in an LTE-A PDCCH in the first frequency band during the active time, wherein the downlink assignment indicates a second frequency band and assigned subcarriers within the second frequency band, to receive an LTE-A physical downlink shared channel (PDSCH) K subframes after a transmission of the downlink assignment. The second frequency band is different than the first frequency band.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a first wireless communication device may receive an indication of a first set of non-adaptive physical downlink control channel (PDCCH), a first set of adaptive PDCCH resources, a second set of non-adaptive PDCCH resources, and a second set of adaptive PDCCH resources, may monitor the first set of non-adaptive PDCCH resources or the first set of non-adaptive PDCCH resources and the first set of adaptive PDCCH resources based at least in part on whether the first set of adaptive PDCCH resources is activated, and may transmit, based at least in part on whether the second set of adaptive PDCCH resources is activated, one or more DCI communications using the second set of non-adaptive PDCCH resources, or the second set of non-adaptive PDCCH resources and the second set of adaptive PDCCH resources. Numerous other aspects are provided.

An electronic device according to various embodiments of the present invention comprises: a near field communication module; a memory; and a processor electrically connected to the near field communication module and the memory, wherein the processor may be configured to: monitor a status of the electronic device and a connection status of at least one external electronic device to the electronic device when the electronic device operates as a wireless router through the near field communication module; set the near field communication module to enter one of a plurality of predefined operating states based at least in part on the monitoring result; and set the near field communication module to enter a power saving mode when connection or disconnection of the at least one external electronic device is not detected for a predetermined time in the set one operating state. Other various embodiments, other than the various embodiments disclosed in the present invention, are possible.

Provided are a method by which a terminal monitors a downlink control channel in a wireless communication system and a corresponding device. An offset-based time window is set before a conventional DRX-on period for monitoring PDCCH, and PSPDCCH for notifying of power saving information in the time window is monitored. Whether to actually monitor the PDCCH in the DRX-on period can be determined on the basis of the PS-PDCCH.

A method for processing a Secondary Node Radio Resource Control (SN RRC) message includes: when it is determined that a triggering condition is satisfied, User Equipment (UE) performs a first Primary Secondary Cell (PSCell) change; and the UE stops receiving a first SN RRC message from a source Secondary Node (SN) during the first PSCell change.

Various wireless communication methods are provided for controlling two or more wireless devices. In one embodiment, various processes optimize the wireless communication, especially when multiple devices are present in a system or a network. In another embodiment, various controlling devices are accommodated in a network of devices at different points in time. The speed at which the new controlling device comes into a range of the networked devices is improved with existing signatures of different wireless protocols or devices present in the network. In another embodiment, a change in the signal strength of a wireless device can be used to detect an object or person, such as an intruder.

A wireless power reception device according to one embodiment of the present specification uses Bluetooth communication and/or in-band communication using an operating frequency of the wireless power, so as to communicate with a wireless power transmission device and control the reception of wireless power, and exchanges an application level message with the wireless power transmission device by using a data transmission stream that includes an auxiliary data control data packet (ADC) and an auxiliary data transport data packet (ADT), wherein the ADT includes a header and a message field, and the message field includes a data field including at least a part of the application level message and a length field including information related to the size of the data field.