A user equipment (UE) receives a reference signal from a base station and determines a pathloss based on the received reference signal. The UE further receive a downlink channel signal including an uplink resource assignment and a transmit power command. The UE transmits an uplink signal, wherein the uplink signal is transmitted using a transmit power level determined based on the pathloss, a format of the uplink signal, the uplink resource assignment and the transmit power command.

This application discloses a channel quality information reporting method and apparatus, to resolve a prior-art problem that a communication link transmission failure is caused due to movement of user equipment. The method includes: sending, by a network device, P1 first reference signals to user equipment on a first reference signal resource, and sending P2 second reference signals to the user equipment on a second reference signal resource; performing, by the user equipment, channel quality measurement on the received first reference signal and the received second reference signal; and reporting, by the user equipment to the network device, M reference signal resource indexes, channel quality information corresponding to the M reference signal resource indexes, and reference signal types or reference signal resource set indexes corresponding to the M reference signal resource indexes.

An uplink channel sending method includes sending, by a terminal device, a first uplink channel to a network device at a first power in a first time unit of a first Bandwidth Part (BWP) region, and sending, by the terminal device, the first uplink channel to the network device at a second power in a second time unit of a second BWP region. The second time unit is adjacent to the first time unit, the second BWP region is different from the first BWP region, and the second power is determined using a reset accumulated closed-loop power, an absolute closed-loop power, or the first power and an offset value.

Circuits and methods for operating a transmitter in a communication system is disclosed. The transmitter analyzes a power level along with one or more real-time transmission conditions associated with transmission of a signal. Based on the power level and the one or more real-time transmission, the communication system selects between a low-power circuit and a high-power circuit for processing the signal for transmission.

Methods and apparatus for managing capacity in a Citizens Broadband Radio Service (CBRS) network. An exemplary method embodiment includes operating a Citizens Broadband Radio Service Device (CBSD) of a cell to perform the steps of: receiving a power down message; decreasing, in response to the power down message, UE inactivity timer length for one or more UEs from a first length to a second length; and continuing to transmit packets to UEs at an edge of the cell. An exemplary system embodiment includes: a CBSD of a cell that comprises: a network receiver that receives a power down message; a first processor that controls the first CBSD to decrease, in response to the power down message, UE inactivity timer length for one or more UEs from a first length to a second length; and a wireless transmitter that continues to transmit packets to UEs at an edge of the cell.

A wireless device receives, from a base station, configuration parameters indicating: power control parameters; and downlink reference signals. A determination is made, based on measurements of the downlink reference signals, of a downlink reference signal of the downlink reference signals. One or more power control parameters are selected from the power control parameters that is associated with the downlink reference signal. Based on the one or more power control parameters, an uplink transmission power for a physical uplink shared channel (PUSCH) is determined. An uplink transport block is transmitted with the uplink transmission power via the PUSCH.

Methods and systems for wireless communication are described. A computing device may receive data via a network. The computing device may modify one or more settings associated with a network based on the data.

Various embodiments of the present disclosure provide a method, a device, and a storage medium for performance prediction of a communication waveform in a communication system. The method includes measuring, by a receiver, an actual SNR distribution of a communication link between a transmitter and the receiver; further includes evaluating, by a waveform performance prediction device, a normalized minimum SNR shift required for the communication waveform to operate, where the normalized minimum SNR shift is obtained based on a normalized SNR distribution using a neural network (NN), the normalized SNR distribution corresponding to the actual SNR distribution; and further includes, according to the normalized minimum SNR shift, obtaining, by a waveform performance prediction device, an actual minimum SNR shift for the actual SNR distribution, where according to the actual minimum SNR shift, the communication system is adjusted for operation.

The present application relates to devices and components including apparatus, systems, and methods to provide beam management for beams with reduced maximum transmission power.

Apparatus, methods, and computer-readable media for autonomous physical uplink shared channel repetition cancellation for energy-limited devices are disclosed herein. A user equipment (UE) may transmit, to a base station, a plurality of uplink channel repetitions. The UE may determine that a device power level associated with the UE does not exceed a predetermined threshold that corresponds to a power requirement to transmit a number of uplink channel repetition instances in the plurality of uplink channel repetitions. The UE may determine to not transmit the number of uplink channel repetition instances based on the device power level falling below the predetermined threshold. The UE may modify the device power level through an energy harvesting operation. Thus, the power efficiency and reliability of uplink channel repetitions can be increased.