Abstract: A wireless access point selects a Multiple User Multiple Input Multiple Output (MU-MIMO) geofence for a wireless user device based on its device location. The wireless access point transfers MU-MIMO signals to the wireless user device based on the selected MU-MIMO geofence. The wireless access point determines MU-MIMO information for the device location like MU-MIMO gain, user device type, or some other metric. A MIMO control system processes the MU-MIMO information for the device location and responsively modifies the MU-MIMO geofence. The wireless access point selects the modified MU-MIMO geofence for another wireless user device based on its device location. The wireless access point transfers other MU-MIMO signals to the other wireless user device based on the modified MU-MIMO geofence.

Abstract: The disclosure provides method and device used in node for wireless communications. A first node receives first information, the first information indicating a first symbol set; transmits a first signaling in a first symbol group; and transmits a first radio signal in a second symbol group; the first symbol group belongs to the first symbol set; the first signaling indicates the second symbol group; at least one multicarrier symbol in the second symbol group belongs to the first symbol set, and at least one multicarrier symbol in the second symbol group does not belong to the first symbol set; a first bit sequence is used to generate the first radio signal, and the first bit sequence comprises a first bit sub-sequence and a second bit sub-sequence. The present disclosure offers an effective solution to dealing with the impact of a dynamic slot format on sidelink transmission in NR system.

Abstract: An object identification method and a mobile terminal are provided. The object identification method includes: capturing a scan object through the camera in a first operating state, in a case that a screen of the mobile terminal is turned off, to obtain a first capturing result; controlling the camera to enter a second operating state in a case that the scan object is determined to meet a preset condition according to the first capturing result, capturing the scan object through the camera in the second operating state to obtain a second capturing result, recognizing the scan object according to the second capturing result, and controlling the mobile terminal to turn on the screen to display a recognition result corresponding to the scan object.

Abstract: The preset disclosure provides a measurement gap configuration method and a measurement gap configuration apparatus. The configuration method includes: determining a first configuration that is configured for a user equipment by a second network node; and configuring a measurement gap for the user equipment according to the first configuration.

Abstract: An uplink data transmission indication method, a terminal and a network side device are provided according to embodiments of the present disclosure. The uplink data transmission indication method applied to the terminal includes: receiving, from a network side device, DCI used for scheduling uplink data transmission, where the DCI includes at least one of a CRI field or an SSBRI field.

Abstract: This disclosure provides a measurement method and an acquisition method for a packet loss rate, a terminal, and a network device. The measurement method for a packet loss rate is applicable to a terminal, and comprises: acquiring configuration information concerning an uplink packet loss rate measurement, the configuration information comprising: measurement time window information, measured service information and condition information for triggering uplink packet loss rate measurement reporting; measuring, according to the configuration information, an uplink packet loss rate; and sending report information to a network device according to the uplink packet loss rate.

Abstract: In various embodiments, a group photograph system coordinates and creates a group photograph of participants of a video conferencing session. Using inputs from the participants, the group photograph system captures images of individual participants and selectively assembles a group photograph based on the rating of each individual participant. In one embodiment, the group photograph system sends a countdown signal to a first participant and a second participant wherein the first participant and the second participant are part of a group photograph within a video conferencing session wherein the countdown signal represents an amount of time before a first participant image is captured of the first participant. In another embodiment, the group photography system captures the first participant image and a second participant image of the first participant and the second participant, respectively and creates a first group photograph which includes the first participant image and the second participant image.

Abstract: A slot offset determination method includes: receiving CSI report request information from a network device; determining a reference slot offset T in accordance with the CSI report request information; and determine a slot offset for a CSI reference resource in accordance with the reference slot offset T.

Abstract: The present disclosure provides an optical fingerprint identification assembly and a terminal. The optical fingerprint identification assembly includes a lens, an image sensor, and a band-pass filter arranged at a light-entering side of the image sensor.

Abstract: Embodiments of the present disclosure provide a PTRS association indication method, a PTRS transmission method, a network device and a terminal. The PTRS association indication method includes: transmitting indication information to a terminal, the indication information being used to indicate information of a DMRS port to the terminal, the DMRS port being associated with a PTRS port in uplink transmission using a CP-OFDM waveform.

Abstract: Disclosed herein are methods and systems for using out-of-band spectrum for shared spectrum registration and increased link reliability and capacity. A method for customer premise equipment (CPE) attachment and registration in a shared spectrum system includes attaching, by the CPE to a shared spectrum access point, using an out-of-band spectrum, where the out-of-band spectrum is out-of-band with respect to a shared spectrum of the shared spectrum system, registering, by the CPE with a spectrum access system, using the out-of-band spectrum upon successful attachment with the shared spectrum access point, and communicating, by the CPE, using at least the shared spectrum upon successful registration with the spectrum access system.

Abstract: The present disclosure provides a camera module and a mobile terminal. The camera module includes: a first camera, a second camera, an optical image stabilization (OIS) chip and a bracket. The first camera and the second camera are embedded in the bracket. A height from a top surface of a lens of the first camera to a bottom surface of the first camera is greater than a height from a top surface of a lens of the second camera to a bottom surface of the second camera. One end of the first camera away from the lens is provided with a first printed circuit board, and the first printed circuit board extends to an outside of the first camera and faces the second camera. The OIS chip is disposed on the first printed circuit board and faces the bottom surface of the second camera; the OIS chip is electrically connected to the first printed circuit board.

Abstract: An information interaction method and a terminal are provided. The method includes: transmitting a target message to a first network node, and recording first information associated with the first network node; if a response message from the first network node to the target message is not received within a preset time period, storing the first information and second information associated with the terminal; transmitting the first information and/or the second information to a second network node, wherein the second network node is a network node successfully accessed by the terminal.

Abstract: An electronic evaluation device and method thereof for optimizing an operation of computer-controlled metric appliances in a network. The method includes determining whether a fault associated with computer-controlled metric appliance is valid based on a feedback received in real time from a validation entity and updating predefined programmable instructions assigned to the computer-controlled metric appliance in response to determining that the fault is invalid. The predefined programmable instructions are used to determine whether the computer-executable metric is achieved or not. The method includes applying a machine learning model on the plurality of parameters and the computer-executable goal to determine a computer-executable task list to be assigned to the computer-controlled metric appliance in order to achieve the computer-executable goal.

Abstract: An exemplary method for data service processing is provided. The method is applied to a terminal device and includes sending a configuration request to a network side device, where the configuration request comprises one or more of a first configuration sub-request for a Discontinuous Reception (DRX) parameter, a second configuration sub-request for a Radio Resource Control (RRC) state, and a third configuration sub-request for a component carrier and a Bandwidth Part (BWP). The method further includes reconfiguring one or more of the DRX parameter, the RRC state, the component carrier, and the BWP, and performing data service processing based on the reconfigured one or more of the DRX parameter, the RRC state, the component carrier, and the BWP; or receiving feedback information that is sent by the network side device in response to the configuration request, and performing data service processing based on the feedback information.

Abstract: Embodiments of the present disclosure provide a random access method, a terminal, and a network device. The method includes: receiving, by a terminal, first resource configuration information sent by a network device, where the first resource configuration information is used to indicate M first frequency resources and N second frequency resources, and M and N are positive integers greater than or equal to 1; sending a random access request on a target first frequency resource to the network device; and receiving a random access response sent by the network device on a target second frequency resource, where the target first frequency resource is a free frequency resource in the NI first frequency resources, and the target second frequency resource is a free frequency resource in the N second frequency resources.

Abstract: The present disclosure provides a hinge and a mobile terminal. The hinge includes at least two joints and a flexible connection member. The at least two joints are sequentially connected. Each joint includes a joint body, a rotation structure provided at a first end portion of the joint body and a support portion provided at a second end portion of the joint body. The first end portion and the second end portion are oppositely disposed. The rotation structures of any adjacent two joints are socketed with each other; the rotation structures of adjacent two joints are capable of rotating relative to each other. The support portion of each joint is connected to the flexible connection member; the flexible connection member is extended as the joints are opened or closed as the joints are closed.

Abstract: An SCell state indication method and a communication device are provided. The SCell state indication method includes: configuring state transition indication information, the state transition indication information being used to indicate an SCell state transition between two of an activated state, a deactivated state and a third state; and transmitting the state transition indication information to a UE.

Abstract: This disclosure provides a measurement control method, a terminal, and a network-side device. The terminal is configured with measurement configuration information for a non-connected state. A terminal-side measurement control method includes: obtaining a first system message sent by a network-side device, and controlling at least one of the measurement configuration information, a measurement validity timer, a measurement behavior, and a measurement result based on the first system message.

Abstract: A method and device for wireless communication in a UE and a base station is disclosed. The UE receives M first-type reference signals respectively in M first-type air interface resources, receives a first wireless signal, and transmits first report information. A first spatial reception parameter is used for reception of the first wireless signal. The measurement of only M1 first-type reference signal(s) of the M first-type reference signals is used to generate the first report information. The selection of the M1 first-type reference signal(s) is associated with the first spatial reception parameter. The disclosure reduces signaling and feedback overhead associated with beam management and channel measurement.