Certain aspects of the present disclosure relate to methods and apparatus for dynamic UE-Category switching for enhanced idle mode power savings. A method for wireless communications by a user equipment (UE) is provided. The method generally includes, determining that a cell supports a second UE category, lower than a first UE category; and while in an idle mode: operating in the cell according to the first UE category; and taking action to operate in the cell according to the second UE category based on the determination.

A base station includes a memory and a processor coupled to the memory and configured to transmit, when a state transition of a mobile station is performed, a first control signal to the mobile station, and perform control to simultaneously transmit the first control signal and a second control signal different from the first control signal to the mobile station when a first state transition, which causes a state of the mobile station to transfer from a first state to a second state, is performed, and then a second state transition, which causes the state of the mobile station to transfer from the second state to a third state, is performed.

The present disclosure relates to a method of controlling allocation of mobile devices (12-23) to frequency bands in a radio site (10), and a device (11) performing the method. In an aspect, a method of a radio base station (11) of controlling allocation of mobile devices (12-23) to frequency bands in a radio site (10) is provided. The method comprises estimating (S101) power consumption of the radio base station (11) caused by radio traffic of the mobile devices (12-23) in each frequency band of the radio site (10), determining (S102) whether or not power consumption of the radio base station (11) is decreased by reallocating at least one of the mobile devices (12-23) from one frequency band to another frequency band, while not exceeding a power headroom limit of said another frequency band, and if so reallocating (S103) said at least one mobile device from said one frequency band to said another frequency band.

Dynamic power saving in a wireless device in a wireless communications system (WCS) is disclosed. The WCS includes a wireless device(s), such as a fifth-generation (5G) or a 5G new-radio (NR) base station (eNB), configured to communicate downlink and uplink communications signals in a coverage cell. In embodiments disclosed herein, the wireless device(s) can determine whether a power-saving condition is met in the coverage cell, and opportunistically operate in a power-saving mode when the power-saving condition is met. By opportunistically operating in the power-saving mode based on the power-saving condition, it is possible to reduce power consumption in the wireless device(s) without sacrificing user experience in the coverage cell.

The present disclosure relates to control methods and devices. One example method is applied for a terminal device, and the terminal device comprises a radio frequency processing circuit, the radio frequency processing circuit comprising a plurality of radio frequency channels. The method comprises determining low power consumption state information of the carrier based on precoding information and duration information, where the low power consumption state information comprises a target radio frequency channel and a duration time for scheduling the target radio frequency channel, a data sequence mapped to the target radio frequency channel being all-zero, and sending control information to the radio frequency processing circuit, where the control information is used to control the target radio frequency channel to be in a low power consumption state, and the low power consumption state comprises a disabled state or a dormant state.

Provided are a measurement method and apparatus, and a terminal device. The method comprises: a terminal device receiving first instruction information sent by a network device, wherein the first instruction information is used to instruct an SCG to enter a first state, and the first state is different from an active state; and the terminal device executing measurement according to a first measurement behavior after the SCG enters the first state.

Disclosed are techniques for wireless communication. In an aspect, a UE may partially disable transmissions on a transmission port based on a temperature condition (e.g., chipset temperature or skin temperature exceeding threshold). In a further aspect, the UE may enable the partially disabled transmissions on the transmission port in response to cessation of the temperature condition. In a further aspect, the UE may transmit a capability indication to a base station that indicates that the UE is capable of supporting a transition from a multi-layer (rank-2) communication mode to a single-layer (rank-1) communication mode.

A method of operating a wireless communication device in a wireless communication network is disclosed. The wireless communication device transitions between a plurality of modes, wherein the plurality of modes further includes a sleep mode, wherein the wireless communication device does not listen for downlink data transmissions, and the plurality of modes further includes an active mode, wherein the wireless communication device listens for downlink data transmissions. While the wireless communication device is operating in the active mode, it receives control signalling from a transmitter to adjust a length of time for transitioning between a first mode among the plurality of modes and a second mode among the plurality of modes based on one or more sleep rules. The wireless communication device transitions from the first mode to the second mode based, at least in part, on the adjusted length of time.

Vehicle mounted Radio Frequency Identification (RFID) systems and associated methods are provided. An example vehicle mounted RFID system is configured to operate an RFID system in a high-power mode. The example vehicle mounted RFID system is further configured to determine that an operating state of a vehicle switched from an active charging state to an inactive state. The example vehicle mounted RFID system is further configured to, in response to determine that the operating state of the vehicle switched from the active charging state to the inactive state, initialize a timer for a period of time. The example vehicle mounted RFID system is further configured to, in response to an elapse of the period of time, switch the RFID system to a low-power mode.

Aspects of the present disclosure provide apparatus, methods, processing systems, and computer readable mediums to help conserve power for wireless repeaters. In some cases, a repeater may detect synchronization signal blocks (SSBs) for a set of one or more cells, obtain system information for one or more cells of the set, and forward one or more communications from at least one cell of the set in accordance with a schedule determined based on the system information, and the detected SSBs.