Abstract: An information reporting method, a receiving method, user equipment, and a network device are provided. The information reporting method comprises: sending a RRC resume request message to a network device; receiving a first RRC message sent by the network device in response to the RRC resume request message; and sending a second RRC message in response to the first RRC message to the network device, wherein in a case that the user equipment is in an inactive mode, when a PLMN reselects to an EPLMN, or when PLMN reselects to EPLMN and RNA update conditions are met, the second RRC message carries the identity of EPLMN.

Abstract: A resource allocation method includes: receiving resource configuration information from a transmit side device. The resource configuration information is used by the receive side device to determine a configured resource that needs to be canceled.

Abstract: Embodiments of this disclosure provide a time calibration method and device. The method includes: determining time amount information for calibrating reference time; and calibrating, based on the time amount information, the reference time transmitted by a network side.

Abstract: Examples described herein relate to systems and methods for storing content items. The methods may be implemented by a computer comprising a processor, primary storage device, secondary storage, device and network interface. The primary storage device may receive, via the network interface, a plurality of content items responsive to respective requests from clients. The plurality of content items may be distributed, via the network interface, from the primary storage device to clients responsive to the respective requests from the clients. The processor may generate a dynamic priority list for the content items based on the respective requests from the clients over time, and may write, based on the dynamic priority list, only a subset of the content items to the secondary storage device.

Abstract: This disclosure discloses a method for detecting link failure of a sidelink and a terminal. The method includes: transmitting target information through a sidelink, where the target information includes a first reference signal or a data packet; and determining, if a transmission status of the target information meets a preset criterion, that no link failure occurs on the sidelink, and determining, if otherwise, that link failure occurs on the sidelink.

Abstract: A terminal device for use in a wireless telecommunications network, the terminal device comprising: first receiver circuitry configured to receive a first signal from each of one or more signal emitting devices located at respective spatial positions; transmitter circuitry configured to transmit a second signal to infrastructure equipment of the wireless telecommunications network; second receiver circuitry configured to receive a third signal from the infrastructure equipment, the third signal being transmitted by the infrastructure equipment in response to the infrastructure equipment receiving the second signal, the third signal being for determining, in combination with the first signal received from each of the one or more signal emitting devices, the spatial position of the terminal device, and the third signal being comprised within a predetermined system information block (SIB); and control circuitry configured to determine a spatial position of the terminal device based on the received first and thir

Abstract: Some embodiments of this disclosure provide a measurement method and a device. The method includes: performing neighboring cell and/or inter-frequency measurement when a specific cell and/or a specific frequency satisfies a measurement condition, to obtain a measurement result; and reporting part or all content of the measurement result to a network side.

Abstract: Embodiments of the disclosure relate to the field of communications technologies, and disclose a method for transmitting a beam failure recovery request, a terminal device, and a network device. The method includes: determining, by a terminal device, that a beam failure event has occurred in a first cell, where the first cell is served by a first network device; and transmitting a BFRQ to a second network device in a second cell, where the BFRQ is used to indicate that a beam failure event has occurred in the first cell, the second cell is served by the second network device, and the second cell is different from the first cell.

Abstract: The present disclosure provides a transmission method and a related device. Said method comprises: when it is determined that N uplink channels to be sent cannot he sent simultaneously, sending at least part of the N uplink channels according to priority corresponding to each uplink channel among the N uplink channels, N being an integer greater than 1, the priorities corresponding to the uplink channels being determined on the basis of priority determination parameters corresponding to the uplink channels, and the priority determination parameters at least including service information corresponding to the uplink channels.

Abstract: A hinge, an electronic device, and an electronic device control method are provided. The electronic device control method includes: when detecting that an electrical signal changes, obtaining a first electrical signal between a first metal plate and a second metal plate; and determining a first folding angle of a hinge according to the first electrical signal; and controlling the electronic device according to the first folding angle.

Abstract: The present disclosure provides a dither-free bias control of an optical modulator (OM) for the externally-modulated transmitter with the silicon-based Mach-Zehnder modulator (MZM), while the nonlinear distortions (NLDs) are generated by the plasma dispersion effect of the silicon-based MZM. The present disclosure proposes to intentionally offset the bias point of the MZM from its quadrature points, and therefore the Mach-Zehnder interference (MZI)-induced even-order NLDs can be generated to cancel the plasma dispersion-induced even-order NLDs. In addition, the MZM bias control is also proposed to arbitrarily adjust and lock in the bias point of an OM so a transmitter with the integrated MZM may reach the best even-order NLDs by offsetting from the quadrature points. Moreover, while the proposed scheme could arbitrarily adjust and lock in the bias of MZM, the receiver sensitivity may be optimized by using such a bias control scheme to adjust the extinction ratio of multi-level signals.

Abstract: The embodiments of this application provide a resource scheduling method and apparatus, and relate to the field of communications technologies, to resolve the problem that how to schedule a SL resource is not provided in the related technologies. The method includes: when data is needed to be sent on a SL, or a BSR of a SL triggers a scheduling request SR, sending a SR to a network side device by using a target resource, where the SR is used to request the network side device to configure a SL sending resource for the terminal device. The embodiments of this application are used to schedule a SL sending resource.

Abstract: A wireless charging coil includes a first wire and a second wire, and the first wire and the second wire are both spirally wound into coils. The first wire includes a first wire part and a second wire part that are connected to each other, and the second wire includes a third wire part and a fourth wire part that are connected to each other. The first wire part is located in a first layer, the second wire part is located in a second layer, the third wire part is located in the first layer, and the fourth wire part is located in the second layer. The first layer and the second layer are two adjacent layers.

Abstract: Embodiments of the present disclosure provide a transmission time indication method for unlicensed band, a network device, and a terminal. The method includes: listening channel state; and when the channel state is idle, indicating first channel occupancy time (COT) information, where the first COT information is used to indicate a remaining COT of the network device.

Abstract: The present disclosure provides a method and device in a node for wireless communication. A first node receives a first signaling; transmits a first signal, a first reference signal and a first demodulation reference signal in the first time-frequency resource block set; and transmits a second signal, a second reference signal and a second demodulation reference signal in the second time-frequency resource block set. A third antenna port is an antenna port transmitting the first reference signal, a fourth antenna port is an antenna port transmitting the second reference signal, and both a port number of the third antenna port and a port number of the fourth antenna port are a target antenna port number; a first antenna port is an antenna port transmitting the first demodulation reference signal, and the third antenna port is associated with the first antenna port.

Abstract: A reporting method, a receiving method, a terminal, and a network-side device are provided. The reporting method includes: transmitting a reporting message to a first network-side device, where the reporting message carries already-recorded SMTC configuration information of a first cell.

Abstract: A method and a device for tight interworking processing, and a base station are provided, which relate to the technical field of communications. The method for tight interworking processing, applied to a first base station, includes: transmitting association information between a first cell and a second cell to a second base station; where the first cell is a cell belonging to the first base station, and the second cell is a cell requested by the first base station and belonging to the second base station.

Abstract: An angle determining circuit and method, and a folding screen terminal are provided. The circuit is applied to the folding screen terminal which includes a first and second screens rotatably connected through a rotary shaft, a resistance ring is fixedly provided outside the rotary shaft. The circuit includes: a first power supply; a first resistor, where one terminal of the first resistor is electrically connected to the first power supply; a first conductive element fixedly disposed at the first screen, where one terminal of the first conductive element is electrically connected to the other terminal of the first resistor, and the other terminal thereof slidably abuts against the resistance ring; a second conductive element fixedly disposed at the second screen, where one terminal of the second conductive element slidably abuts against the resistance ring, and the other terminal thereof is grounded; and a processor.

Abstract: A sensing indication method, a terminal and a network device are provided. A sensing indication method is applied to a terminal and includes: acquiring a target object for channel sensing or uplink transmission; performing a channel sensing on the target object; where the target object includes at least one of: at least one candidate spatial domain transmission filter, at least one candidate uplink Bandwidth Part (BWP) and at least one candidate unlicensed component carrier.

Abstract: This disclosure provides a method for capability and resource allocation for a sidelink, a terminal device, and a control device. The method includes: obtaining information related to sidelink transmission, where the related information includes information about maximum processing capabilities and/or information about maximum allocable resources of a terminal device; and performing transmission configuration.