This disclosure provides systems, methods, and devices for wireless communication that support closed-loop transmit power control (TPC) for user equipment (UE) sidelink communications. TPC information may be provided, by a first UE receiving transmissions from a second UE, with respect to a sidelink implemented between the UEs. TPC information may be multiplexed with sidelink data traffic in a sidelink communication between UEs. The TPC information may include a TPC indicator and one or more TPC messages for providing TPC commands with respect to one or more sidelinks. The sidelink data traffic of some examples may include data-only traffic, such as semi-persistent scheduled (SPS) data traffic, that is decoupled from accompanying sidelink control information (SCI). Other aspects and features are also claimed and described.

Proposed is an operation method for a first device (100) in a wireless communication system. The method may comprise the steps of: receiving, from a second device (200), first sidelink control information (SCI) via a physical sidelink control channel (PSCCH); receiving, from the second device (200), a reference signal and data via a physical sidelink shared channel (PSSCH) related to the PSCCH; determining a physical sidelink feedback channel (PSFCH) resource, on the basis of a subchannel and slot related to the PSSCH; measuring reference signal received power (RSRP), on the basis of the reference signal received via the PSSCH related to the PSFCH resource; determining first transmit power of a PSFCH transmitted on the PSFCH resource, on the basis of the RSRP; and transmitting, to the second device (200), the PSFCH on the basis of the determined first transmit power of the PSFCH.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive, from a source UE, a sidelink communication. The UE may generate a transmit power control command based at least in part on a measurement of the sidelink communication. The UE may transmit, via a sidelink feedback channel, the transmit power control command to control a transmit power, for another sidelink communication, of the source UE. Numerous other aspects are provided.

Methods, systems, and devices for wireless communications are described. In some examples, a user equipment (UE) operating according to full duplex (e.g., transmit and receive concurrently) may adapt a transmit power of a sidelink feedback message based on priorities of data messages. For example, the UE may determine a priority of a first data message received at the UE in a previous slot and a priority of a second data message transmitted to the UE in a previous slot. Based on a comparison of the priorities of the data messages, the UE may adjust a transmit power for a feedback message indicating a decoding outcome of the first data message and transmit the feedback message according to the adjusted transmit power while receiving a feedback message indicating the decoding outcome of the second data message thereby increasing efficiency while reducing interference.

The present disclosure provides a power control method in device to device (D2D) communication and a user equipment for performing the power control method. The method includes computing a power value of device to device (D2D) transmission of a user equipment performing D2D communication in a subframe in a serving cell, based on a power control adjustment state of a Long Term Evolution (LTE) wide area network (WAN) uplink channel of the user equipment and an offset or a ratio indicated by a transmit power control (TPC) command indicated in D2D grant or downlink control information (DCI) format 3/3A.

Methods, systems, and devices for wireless communications are described. In some cases, a first user equipment (UE) within a coverage area of a base station may determine a power control configuration. The first UE may transmit an indication of the power control configuration to a second UE, which may adjust one or more power control parameters based on the indication. The one or more power control parameters may include a target received power, a compensation factor, a downlink path loss between the base station and the first UE, or a combination thereof. The second UE may use the adjusted one or more power control parameters to determine a transmit power and may transmit a message to the first UE with the determined transmit power. In some cases, the second UE may be outside of the coverage area of the base station.

Disclosed are a method by which a VRU transmits a safety message in a wireless communication system, and an apparatus therefor, the method comprising the steps of: transmitting state information to a base station on the basis of mobility information; receiving reconfiguration information about transmission parameters from the base station; and transmitting a safety message on the basis of the reconfiguration information, wherein the state information is included in a UEAssistanceInformation message and transmitted if a collision risk is predicted according to peripheral information and the mobility information, and the safety message is transmitted on the basis of transmission power and a transmission period that are changed according to the reconfiguration information.

One disclosure of the present disclosure provides a user equipment (UE). The UE comprises: a transceiver unit that transmits and receives a signal; and a processor that controls the transceiver unit, wherein the transceiver unit comprises two transmitters, the UE can perform output at a maximum of 26 dBm, the processor determines transmission power on the basis of maximum power reduction (MPR), the MPR is set based on outer RB allocations and inner RB allocations, the MPR is set based on CP-OFDM, the MPR is set based on QPSK, 16 QAM, 64 QAM, and 256 QAM, and the transceiver transmits a sidelink signal to another UE on the basis of the transmission power.

One disclosure of the present specification provides user equipment (UE). The UE comprises: a transmission and reception unit for transmitting and receiving a signal; and a processor for controlling the transmission and reception unit. The UE may output at a maximum of 26 dBm. The processor determines a transmission power on the basis of additional maximum power reduction (A-MPR). The A-MPR: is configured on the basis of a carrier frequency; is configured on the basis of a modulation scheme; and is configured on the basis of LCRB, startRB, and RB allocation. The transmission and reception device may transmit a sidelink signal to another UE by means of the transmission power.

There is provided a UE for configured to operate in a wireless system. The UE comprises: at least one transceiver; at least one processor; and at least one computer memory operably connectable to the at least one processor and storing instructions that, based on being executed by the at least one processor, perform operations comprising: determining SL transmit power for SL signal based on MPR value; determining UL transmit power for UL signal based on the MPR value; transmitting the SL signal based on the SL transmit power; and transmitting the UL signal based on the UL transmit power.