Abstract: Provided are a channel state information transmission method, a channel state information receiving method, a signaling information transmission method, a node and a medium. The channel state information sending method is applied to a first communication node and includes the following. M downlink measurement reference signal resources are determined, where M is a positive integer greater than 1; one set of channel state information is determined according to the M downlink measurement reference signal resources; and the one set of channel state information is sent.
Abstract: A wireless communication method for use in a wireless network function comprises receiving, from a first session management function (SMF) a registration request of a packet data unit (PDU) session corresponding to a second SMF, and transmitting, to the second SMF, a notification which indicates the PDU session is controlled by another SMF.
Abstract: A method and apparatus for configuration of sidelink channel resource units for sidelink communications in a wireless communication network is disclosed.
Abstract: A method for processing a network allocation vector (NAV) includes: terminating the receiving of a first radio frame when it is determined that a target receiving station of the first radio frame being received is not a first station; and updating an NAV of the first station or maintaining the NAV of the first station unchanged according to a remaining duration of the first radio frame and a first transmission opportunity duration carried in the first radio frame, where the remaining duration of the first radio frame is the transmission time used for transmitting the remaining part of the first radio frame after the receiving of the first radio frame is terminated. The technical solution solves the problem in the related art of collisions with hidden stations caused by an inaccurate NAV update in the existing art, thereby ensuring the accuracy of an NAV update and the fairness of transmission and channel contention, and reducing collisions among hidden stations.
Type:
Grant
Filed:
January 28, 2022
Date of Patent:
April 9, 2024
Assignee:
ZTE Corporation
Inventors:
Zhiqiang Han, Weimin Xing, Kaiying Lv, Nan Li
Abstract: Provided are configuration resource sending, configuring and receiving methods and apparatuses. A signal sending method comprises: determining a first configuration resource and a second configuration resource, sending means of signals sent via the first configuration resource comprising a time domain code division multiplexing sending means, signals sent via the second configuration resource comprising a phase tracking reference signal; sending signals via the first configuration resource and the second configuration resource, a time domain resource intersection of the first configuration resource and the second configuration resource being an empty set.
Type:
Grant
Filed:
April 18, 2023
Date of Patent:
April 9, 2024
Assignee:
ZTE CORPORATION
Inventors:
Chuangxin Jiang, YuNgok Li, Yijian Chen, Zhaohua Lu
Abstract: An electronic apparatus, a camera optical-zoom method, a camera optical-zoom unit, and a memory are disclosed. The electronic apparatus may include a camera, a sensor, a processor, and a memory, where the memory stores a program instruction which, when executed by the processor, causes the processor to perform the following steps: receiving image data of a photographed object acquired by the camera; and integrating image data of a full pixel area corresponding to a zoom value of the camera according to a preset algorithm, and outputting the integrated image data according to a coordinate sequence of pixels on the sensor, where the full pixel area includes pixel areas of the sensor corresponding to the zoom value and pixel areas of the sensor corresponding to a value greater than the zoom value.
Abstract: A photographing method, an electronic device, and a storage medium are disclosed. The photographing method includes: upon reception of a camera startup instruction, executing alternated steps of displaying an image on a display screen and acquiring an image with a camera, the alternated steps including setting the display screen into a transparent state after the display screen displays a frame of image; controlling the under-panel camera to acquire a frame of image, and sending the acquired image to the display screen for display; and returning to execute the alternated steps until an end instruction indicating completion of photographing is received. When the display screen is in the transparent state, light is allowed to enter the under-panel camera through the display screen.
Abstract: Provided is a rate matching method and device for a Polar code. The method includes: concatenating K information bits and (N?K) frozen bits to generate a bit sequence of N bits, and encoding the bit sequence of N bits by means of a Polar code encoder with a generator matrix of size N×N to generate an initial bit sequence {S0, S1, . . . , SN?1} of N bits, where K and N are both positive integers and K is less than or equal to N; dividing a circular buffer into q parts, selecting bits from the initial bit sequence {S0, S1, . . . , SN?1} in a non-repeated manner, and writing the bits into the q parts of the circular buffer according to a predefined rule, where q=1, 2, 3 or 4; and sequentially selecting a bit sequence of a specified length from a predefined starting position in a bit sequence in the circular buffer and taking the bit sequence of the specified length as a bit sequence to be transmitted.
Abstract: Provided in the present disclosure are a method and apparatus for sending a signal, a method and apparatus for receiving a signal, and a storage medium. The method for sending the signal includes: configuring or appointing multiple sending manners or conflict processing manners for a first signal; when there is a second signal conflicting with the first selecting a sending manner or a conflict processing manner for the first signal according to determination information; and sending the first signal according to the sending manner or the conflict processing manner.
Abstract: A method of wireless communication includes repeatedly transmitting, from a mobile device to a communication node, a first message using increasing power levels for initiating a two-step random-access procedure until a termination condition is met. The first message includes a payload part and optionally a preamble sequence. The termination condition includes (1) the mobile device receives an indication from the communication node that the payload part was received successfully, or (2) a number of repeated transmissions reaches a threshold.
Abstract: Provided are a channel configuration method and terminal, a storage medium and an electronic device. The method includes: determining that multiple physical channels overlap in a time domain; and determining a physical channel for carrying information or data in the multiple physical channels, wherein the determined physical channel is a Physical Uplink Control Channel (PUCCH), and determining a physical channel comprises: among the multiple physical channels, processing a physical channel with earlier first symbol before a physical channel with later first symbol, and when two or more physical channels in the multiple physical channels have the same first symbol, processing a physical channel with a larger number of symbols before a physical channel with a smaller number of symbols.
Type:
Grant
Filed:
May 22, 2023
Date of Patent:
April 9, 2024
Assignee:
ZTE Corporation
Inventors:
Wei Gou, Peng Hao, Zhisong Zuo, Ting Fu
Abstract: Systems and methods for wireless communication systems are disclosed. In one aspect, the wireless communication method includes sending, by a network to a wireless communication device, first signaling for monitoring at least one downlink control channel, the at least one downlink control channel comprises a first downlink control channel and a second downlink control channel. The second downlink control channel comprises a retransmission of the first downlink control channel. The method includes sending, by the network to a plurality of wireless communication devices comprising the wireless communication device, the at least one downlink control channel.
Abstract: Presented are systems, methods, apparatuses, or computer-readable media for determining time durations for applying new beams. A wireless communication device may determine a new beam for link recovery. The wireless communication device may determine a time duration for which the new beam is applicable for performing a communication.
Type:
Application
Filed:
December 7, 2023
Publication date:
April 4, 2024
Applicant:
ZTE CORPORATION
Inventors:
Ke YAO, Bo GAO, Shujuan ZHANG, Zhaohua LU
Abstract: The disclosed technology includes techniques for facilitating the operation of a multi-antenna communication system. The disclosed technology can be implemented to provide a method for wireless communications which includes receiving, by a user device, an indication about an association between multiple reference resources and a target resource at the user device. The association includes properties of a communication channel to and/or from the user device, and wherein at least one property of the communication channel is different among the multiple reference resources, and performing wireless communication using the indication.
Type:
Application
Filed:
December 4, 2023
Publication date:
April 4, 2024
Applicant:
ZTE Corporation
Inventors:
Yu Ngok Li, Bo Gao, Yijian Chen, Huahua Xiao, Zhaohua Lu
Abstract: Systems and methods for wireless communication systems are disclosed. In one aspect, the wireless communication method includes receiving, by a wireless communication device from the network, at least one indicator and determining precoding information for an uplink transmission based on the at least one indicator. Each of the at least one indicator corresponds to a respective first resource group.
Type:
Application
Filed:
December 8, 2023
Publication date:
April 4, 2024
Applicant:
ZTE CORPORATION
Inventors:
Ke YAO, Shujuan ZHANG, Bo GAO, Chuangxin JIANG, Zhaohua LU
Abstract: Systems and methods for wireless communication systems are disclosed. In one aspect, the wireless communication method includes receiving, by a wireless communication device from a network, first signaling. The first signaling activates one or more beam state codepoints, each of the one or more beam state codepoints includes one or more beam states for a direction. The direction includes downlink, uplink or both downlink and uplink. The method further includes determining, by the wireless communication device, at least one beam state according to the one or more beam state codepoints, and applying, by the wireless communication device, the at least one beam state to a target transmission based on the direction of the at least one beam state. The target transmission includes at least one of a downlink transmission or an uplink transmission.
Type:
Application
Filed:
October 17, 2023
Publication date:
April 4, 2024
Applicant:
ZTE CORPORATION
Inventors:
Ke YAO, Bo GAO, Chuangxin JIANG, Zhaohua LU, Shujuan ZHANG
Abstract: Provided in the present disclosure are an antenna, an antenna power supply method, a single-feeding-based method for combining antennas, and a terminal. The antenna comprises: a low-frequency antenna, a high-frequency antenna, and a filter. The filter is provided between the low-frequency antenna and the high-frequency antenna and isolates the low-frequency antenna and the high-frequency antenna. The low-frequency antenna and the high-frequency antenna use the same feeding point for feeding.
Abstract: A method and device for realizing beam alignment are disclosed. The method may include: when first signals are received by two analog subarrays having a same polarization using receiving beams with a same beam direction, acquiring the first signals and the phase center difference therebetween; maintaining the beam direction, changing the phase center difference between the two analog sub-arrays for the first time, and acquiring second signals and the first changed phase center difference; maintaining the beam direction, changing the phase center difference for the second time, and acquiring third signals and the second changed phase center difference; and estimating a DOA of a received signal according to the obtained information, and directing the centers of the receiving beams to the estimated DOA.
Abstract: Provided are a method for service status analysis, a server, and a storage medium. The method includes: for each vertex of multiple vertices in a graph database: reading out attribute data of the vertex, where the graph database is generated in advance according to a service description table, the vertex represents a service, and the attribute data of the vertex includes at least one service attribute of the service represented by the vertex; and according to the attribute data of the vertex and attribute data of each of multiple related vertices, determining a service status level of the service represented by the vertex, where each of the multiple related vertices has a propagation relationship with the vertex; and according to the service status level of each of the services represented by the vertices, analyzing a service propagation network.
Abstract: Methods, apparatus and systems for time mapping in a wireless communication are disclosed. In one embodiment, a method performed by a first network node of a wireless system is disclosed. The method comprises: receiving, from a controller of a time sensitive network (TSN), a configuration that comprises time information for scheduling; and converting the time information to converted time information of the wireless system.