Methods, systems, and devices for wireless communications are described. A wireless device such as a user equipment (UE) may receive control signaling from a scheduling device such as a base station which indicates a configuration for decoding control channel information at the UE using a single discrete transform process. In such cases, the configuration may be for decoding control channel information such as downlink control information (DCI) that is time multiplexed with data channel information in one or more symbols of a single carrier waveform. Using the configuration, the UE may decode the control channel information and the data channel information using the discrete transform process.

Methods, systems, and devices for wireless communications are described. A user equipment (UE) may receive a first control message indicating an uplink power control configuration for the UE. The uplink power control configuration may be associated with a power control identifier and a resource set identifier. The UE may receive a second control message that schedules an uplink message for the UE. The second control message may indicate the resource set identifier and the power control identifier for transmission of the uplink message. The UE may determine a transmit power for the uplink message based on a set of power control parameters, the set of power control parameters corresponding to the resource set identifier and the power control identifier. The UE may transmit the uplink message using a resource set associated with the resource set identifier and in accordance with the determined transmit power.

Methods, systems, and devices for wireless communications are described. A user equipment (UE) may receive a first control message indicating an uplink power control configuration for the UE. The uplink power control configuration may be associated with a power control identifier and a resource set identifier. The UE may receive a second control message that schedules an uplink message for the UE. The second control message may indicate the resource set identifier and the power control identifier for transmission of the uplink message. The UE may determine a transmit power for the uplink message based on a set of power control parameters, the set of power control parameters corresponding to the resource set identifier and the power control identifier. The UE may transmit the uplink message using a resource set associated with the resource set identifier and in accordance with the determined transmit power.

A method for power control parameter determination, a terminal, a network device, and a storage medium are provided. The method includes the following. A target transmission configuration indication (TCI) state for an uplink signal is determined. A power control parameter of the uplink signal is determined according to the target TCI state.

Apparatuses, methods, and systems are disclosed for encoding reference signal received powers. One apparatus includes a processor that: determines a reference signal received power corresponding to each beam of multiple beams to result in a set of determined reference signal received powers; orders the set of determined reference signal received powers in descending order to result in an ordered list of reference signal received powers; and encodes a difference between each two adjacent reference signal received powers of the ordered list of reference signal received powers to result in an encoded ordered list of reference signal received powers.

Described herein are a method and apparatus for Wi-Fi network processing, an electronic device, and a storage medium. In response to detecting a Wi-Fi signal, signal energy of the Wi-Fi signal is obtained. In response to the signal energy being greater than a first energy threshold, a correlation degree between the Wi-Fi signal and a preset Wi-Fi signal is obtained. In response to the signal energy being greater than the first energy threshold and less than a second energy threshold and the correlation degree is greater than a first correlation degree threshold, the Wi-Fi signal is demodulated. In response to the signal energy being not less than the second energy threshold and the correlation degree is greater than a second correlation degree threshold, the Wi-Fi signal is demodulated.

Described herein are a method and apparatus for Wi-Fi network processing, an electronic device, and a storage medium. In response to detecting a Wi-Fi signal, signal energy of the Wi-Fi signal is obtained. In response to the signal energy being greater than a first energy threshold, a correlation degree between the Wi-Fi signal and a preset Wi-Fi signal is obtained. In response to the signal energy being greater than the first energy threshold and less than a second energy threshold and the correlation degree is greater than a first correlation degree threshold, the Wi-Fi signal is demodulated. In response to the signal energy being not less than the second energy threshold and the correlation degree is greater than a second correlation degree threshold, the Wi-Fi signal is demodulated.

A method for allocating power of an electronic device, includes generating a power budget indicating an amount of available power for signal transmission and reception. The method also includes determining whether to prioritize communication signals or radar signals for allocating the available power of a battery. In response to a determination to prioritize the communication signals, the method includes allocating a first portion of the available power for the communication signals and a second portion of the of the available power for the radar signals. In response to a determination to prioritize the radar signals, the method includes allocating the first portion of the available power for the radar signals and the second portion of the of the available power for the communication signals. The method further includes transmitting the communication signals and the radar signals based on the allocation.

A method for allocating power of an electronic device, includes generating a power budget indicating an amount of available power for signal transmission and reception. The method also includes determining whether to prioritize communication signals or radar signals for allocating the available power of a battery. In response to a determination to prioritize the communication signals, the method includes allocating a first portion of the available power for the communication signals and a second portion of the of the available power for the radar signals. In response to a determination to prioritize the radar signals, the method includes allocating the first portion of the available power for the radar signals and the second portion of the of the available power for the communication signals. The method further includes transmitting the communication signals and the radar signals based on the allocation.

A user equipment (UE) is configured to receive a control message over a physical control channel in a first time slot, wherein the control message has power control bits for a plurality of UEs, wherein the plurality of UEs include the first UE. The UE is further configured to extract power control information for the first UE from the control message, and to transmit a signal over a physical control channel to a base station in a second time slot at a transmission power level based on the extracted power control information.