Abstract: A model validity determination method includes obtaining, by a first communication device, at least one beam group, where each beam group includes at least one beam; respectively inputting, by the first communication device, first beam related information corresponding to the at least one beam group into a target AI model so as to obtain at least one piece of second beam related information by prediction, where second beam related information corresponds to the beam group; and performing performance verification, by the first communication device, on the target AI model according to the at least one piece of second beam related information, or transmitting, by the first communication device, the at least one piece of second beam related information to a second communication device. The at least one piece of second beam related information is used for the second communication device to perform performance verification on the target AI model.

Abstract: This application discloses a beam processing method and apparatus, and a device. The method in the embodiments of this application includes: receiving, by a first device, first beam association information; where the first beam association information includes second beam association information and/or third beam association information, and the first beam association information is used as input information for an artificial intelligence model; where the second beam association information is obtained after a second device performs transformation processing on fourth beam association information, the fourth beam association information being beam association information at a receiving end of a first reference signal; and the third beam association information is obtained after the second device performs transformation processing on fifth beam association information, the fifth beam association information being beam association information at a transmitting end of the first reference signal.

Abstract: This application discloses a beam processing method, apparatus, and device. The method in the embodiments of this application includes: determining, by a first device, a first beam set, where a number of beams pertaining to the first beam set is associated with a number of beams corresponding to beam quality-related information inputted by an artificial intelligence model; and the artificial intelligence model is configured for a beam-related function.

Abstract: A method for transmitting a channel state information CSI report, a terminal, and a network device are provided. The method for transmitting a CSI report is applied to a terminal side and includes: dividing non-zero quantized coefficients in a compressed coefficient matrix and a bitmap indicating the quantized coefficients into a plurality of information groups; discarding, based on priority information preset for information groups, at least one of the following information in the CSI report: the quantized coefficients and the bitmap; and transmitting the CSI report with the information discarded.

Abstract: A port mapping method for sounding reference signals includes in a case that a number of ports for a first SRS is 6 or 8, determining, by a terminal, a CS corresponding to each port for the first SRS and/or a comb position mapped by the each port for the first SRS; where a comb structure size of the first SRS is N, and N is 2, 4, 6, or 8.

Abstract: This application discloses an SRS port mapping method and apparatus, and a terminal. The method includes: mapping, by a terminal, M port groups to N OFDM symbols, where M and N are both integers greater than or equal to 1, M is greater than or equal to N, ports of a target SRS include ports of one or more SRS resources, and the ports of the SRS resources are formed by the M port groups.

Abstract: This application discloses an information interaction method and apparatus, and a communication device. The method includes: indicating, by a first communication device, first interaction information, where the first interaction information is used to indicate at least one of the following: a beam-related usage of an artificial intelligence AI model; parameter information corresponding to the beam-related usage of the AI model, where the parameter information includes at least one of input parameter information, output parameter information, and auxiliary parameter information; quantity information related to the parameter information; and order information of the parameter information.

Abstract: A cover for an automobile engine covers a crank pulley and an auxiliary drive belt of an engine arranged in an engine room with the crank pulley and the auxiliary drive belt being in a posture facing a front direction of a vehicle body. The cover includes a reinforcing body that includes a fastening part attaching to the engine and is integrated with a sound-absorbing main body.

Abstract: This application discloses an SRS resource configuration method and apparatus, a terminal, and a network side device, and pertains to the field of wireless communication technologies. The SRS resource configuration method according to the embodiments of this application includes: receiving, by a network side device, a supported antenna switching capability for SRS reported by a terminal; determining, by the network side device based on the antenna switching capability, the number of SRS resource sets configured for the terminal; and sending, by the network side device, SRS configuration information to the terminal, where the SRS configuration information indicates the number of the SRS resource sets.

Abstract: A capability information reporting method includes: reporting capability information, the capability information being used to indicate whether a terminal supports a first capability, and the first capability being a capability of supporting that a PMI subband size is less than a CQI subband size.

Abstract: A cover for an automobile engine covers a crank pulley and an auxiliary drive belt of an engine arranged in an engine room with the crank pulley and the auxiliary drive belt being in a posture facing a front direction of a vehicle body. The cover includes a reinforcing body that includes a fastening part attaching to the engine and is integrated with a sound-absorbing main body.

Abstract: An integrated circuit comprising a CPU coupled to a system bus, a network interface configured to interface with an external device, and a crypto neuromorphic core coupled to the system bus. The cryptographic core comprising a processor or core, an internal bus, and a non-transitory computer-readable memory, wherein the crypto neuromorphic core is isolated from the CPU and the network interface via the system bus and the crypto neuromorphic core runs its own operating system. The crypto neuromorphic core is configured to: contain a secure core comprising a secure processor and dedicated/protected memory; store a private key in the dedicated/protected memory accessible to the secure core but not accessible to other components of the crypto neuromorphic core, the central processing unit, and the network interface; add data to a blockchain using the private key via the network interface; and read data from the blockchain via the network interface.

Abstract: The present application discloses a guard period determination method and apparatus, a terminal, and a storage medium. The guard period determination method includes: determining, by a terminal, a target guard period between two target sounding reference signal resources; and transmitting, by the terminal, two target sounding reference signals based on the target sounding reference signal resources and the target guard period. The two target sounding reference signal resources are any two sounding reference signal resources that are adjacent in the time domain within an antenna switching group; and one antenna switching group includes all sounding reference signal resources used to detect one piece of complete channel state information, and all sounding reference signal resources in the one antenna switching group are of the same resource type.

Abstract: A Sounding Reference Signal (SRS) sending method and apparatus, an SRS receiving method and apparatus, and an SRS configuration method and apparatus, are provided. The SRS sending method includes: sending an SRS in a partial frequency hopping manner on a complete bandwidth corresponding to R Orthogonal Frequency Division Multiplexing (OFDM) symbols in one SRS resource set or SRS resource, where the SRS is sent on a partial bandwidth in each complete bandwidth, there are at least two complete bandwidths, and sending position indexes of partial bandwidths in the at least two complete bandwidths are different, and R is a repetition factor.

Abstract: A PUSCH transmission method and apparatus, a device, and a storage medium are disclosed. The method includes: determining, by a terminal based on first indication information that is received, a target transmission resource configuration from at least one transmission resource configuration; and performing PUSCH transmission based on the target transmission resource configuration; where the first indication information includes at least one of the following: SRS resource indication information; TPMI indication information; and PTRS transmit port indication information.

Abstract: A PUSCH transmission scheduling method, a terminal, and a network side device, are provided. The method includes: receiving, by a terminal, scheduling signaling, where the scheduling signaling is used to schedule transmission of a PUSCH, and the scheduling signaling is further used to determine at least one SRS resource set and/or SRS resource associated with the PUSCH; and sending, by the terminal, the PUSCH according to the SRS resource set and/or SRS resource.

Abstract: An aperiodic Reference Signal (RS) transmission method, a terminal, and a network-side device are provided. The method includes: receiving first slot offset information, where the first slot offset information is for indicating a first slot offset of a target aperiodic RS resource; and transmitting or receiving the target aperiodic RS resource at a first slot position, where the first slot position is determined from any of the following: the first slot offset, and the first slot offset and a second slot offset; or the second slot offset is a slot offset configured for the target aperiodic RS resource.

Abstract: A sounding reference signal configuration method includes indicating, by a network-side device to a terminal, a configuration parameter of a target SRS; where in a case that an SRS resource indicated by the configuration parameter includes N OFDM symbols and the configuration parameter indicates that frequency hopping of the target SRS is disabled, the configuration parameter indicates the terminal to use at least one spatial beam to transmit the target SRS on the N OFDM symbols, where N is an integer greater than 1.

Abstract: Automatically gathering and processing data relating to risk of patient falls. The data is analyzed to determine a level of risk each patient has for falling. Patient risk for falls is stratified and protocols are implemented to mitigate that risk. The system communicates instructions and alerts to caregivers to complete tasks or provide aid to patients. Updates to patient medical information and updates to best practices in fall risk management result in updates to patient risk stratifications. In turn, tasks and alerts are updated to reflect updates to patient risk stratifications.

Abstract: Systems and methods for vital sign monitors are disclosed herein. In some cases, a warning score is calculated based on first measurements of a first biological condition and second measurements of a second biological condition. In particular cases, the first measurements and the second measurements are automatically measured during the same time period. The warning score may be calculated based on an average of the first measurements and an average of the second measurements. Based on determining that the warning score is outside of a predetermined range, a clinical device may output an alert.