The present application discloses a resource processing method and apparatus, an electronic device, and a storage medium, which belong to the field of communications. The resource processing method in an embodiment of the present application comprises: when it is learned that a target service is in the inactive state, performing target processing on a target resource, the target processing comprising: first target processing and second target processing. The first target processing comprises: depending on an implementation; retaining the state of the target resource; releasing the target resource when the target resource has been established; and establishing a target resource when the target resource has not been established. The second target processing comprises at least one of the following: the target resource is a resource between a source base station and a core network function in a handover scenario, and third target processing is used; the target resource is a resource between a handover target base station and the core network function in the handover scenario, and the third target processing is used. The third target processing comprises: depending on an implementation, retaining the state of the target resource; releasing the target resource when the target resource has been established; and establishing a target resource when the target resource has not been stablished.
The present application discloses a method for mapping a channel state information (CSI) report, a terminal, and a network side device. The method for mapping a CSI report in the embodiments of the present application comprises: a terminal device, according to a preset mapping rule, feeds back X CSI reports to a network side device by means of a target channel. The CSI reports each comprise at least one of the following: information for indicating a beam reporting type, and related information of a target beam. The target beam comprises at least one of the following: N pairs of first beams that can be simultaneously received by the terminal device, and M second beams the measurement values of which satisfy a predetermined condition; N is a positive integer greater than or equal to 1, and X and M are positive integers. The preset mapping rule is a mapping rule matching the beam reporting type.
Disclosed in the present application are an SN synchronization method, apparatus and device for a multicast broadcast service, and a readable storage medium. The method comprises: obtaining a first air interface SN for receiving a first multicast broadcast service in a first cell and a second air interface SN for receiving the first multicast broadcast service in a second cell; and sorting data packets of the first multicast broadcast service according to the first air interface SN and the second air interface SN, wherein the first air interface SN and the second air interface SN are located in the same SN set, and the first air interface SN and the second air interface SN are at least partially different.
H04W 4/06 - Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
The present application relates to the technical field of communications. Disclosed are a method and device for configuring discontinuous reception, a terminal, and a readable storage medium. The method comprises: during a sidelink-based transmission process, a first terminal executes a first operation, where the first operation comprises at least one of the following: the first terminal determines a state of transmission of a hybrid automatic repeat request (HARQ) feedback, and the first terminal decodes a data pack; and the first terminal determines, on the basis of the execution result of the first operation, whether to activate a timer applicable in controlling sidelink discontinuous reception.
H04L 1/16 - Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
H04L 1/18 - Automatic repetition systems, e.g. Van Duuren systems
5.
INFORMATION CONTROL METHOD AND APPARATUS AND BASE STATION
Disclosed are an information control method, an apparatus, and a base station. The information control method is applied to a base station, and comprises: sending a first signaling from a CU of a base station to a DU of the base station, the first signaling comprising information of an MBS service, and the information of the MBS service being used to instruct the DU to send the MBS service in a first manner; generating configuration information related to the MBS service in the DU; and sending the configuration information from the DU to the CU.
H04W 4/06 - Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
Disclosed are a multicast service receiving method, a multicast service configuring method, a terminal and a network-side device, which belong to the technical field of wireless communications. The multicast service receiving method comprises: receiving configuration information of an MBS service that is sent by a network-side device, wherein the configuration information of the MBS service comprises information for determining whether to enable reordering of a PDCP layer and/or an RLC layer; and receiving the MBS service according to the configuration information of the MBS service.
Disclosed are a PUSCH signal mapping method, a terminal, and a network side device. The PUSCH signal mapping method comprises: according to a frequency domain resource allocation type of the terminal and frequency domain resource allocation information of the terminal, determining a target resource block allocated for a PUSCH, wherein the target resource block comprises a first target VRB or a first target PRB; according to the frequency domain resource allocation type and/or a mode of the PUSCH being scheduled, determining a mapping mode of a PUSCH signal being mapped to a second target PRB, wherein the second target PRB is the first target PRB or a PRB corresponding to the first target VRB; and mapping the PUSCH signal to the second target PRB by using the mapping mode.
Disclosed in the present application are a mode switching method, a terminal, and a network side device. The method can be applied to a target network side device, and comprises: upon receiving multicast quality of service (QoS) information from a multicast and broadcast network function (MB NF), reserving multicast air interface resources, the multicast air interface resources being used by a terminal to receive multicast service data by means of a target mode after switching, and the multicast QoS information corresponding to the multicast service data; and sending the multicast air interface resources to a source network side device or the MB NF.
The present application discloses a beam failure recovery method and apparatus, and a device. Said method comprises: determining, according to a measurement result of a target reference signal corresponding to a target physical downlink control channel (PDCCH), whether a beam failure event occurs, the target PDCCH at least comprising a first PDCCH which is repeatedly transmitted K times, wherein K = 2; and reporting a beam failure recovery request to a network side device.
Disclosed are a channel information processing method and apparatus. The method comprises: receiving first information and second information from a terminal, wherein the first information comprises a first parameter without uplink-downlink channel reciprocity, the first parameter is determined on the basis of downlink channel estimation, the second information is used for indicating the deviation between a second parameter and a third parameter that have uplink-downlink channel reciprocity, the second parameter is determined on the basis of uplink channel estimation, and the third parameter is determined on the basis of downlink channel estimation; and determining channel information of a downlink channel according to the first information, the second information and the second parameter.
H04B 7/06 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station
11.
INFORMATION TRANSMISSION METHOD AND APPARATUS, AND ELECTRONIC DEVICE
Disclosed are an information transmission method and apparatus, and an electronic device. The information transmission method comprises: sending first information to at least one second device, wherein the first information is used for triggering the second device to perform auxiliary information transmission or is used for the second device to perform resource selection or reservation.
Provided in the present application are a method and apparatus for processing integrity protection failure and a user equipment. The method comprises: a first user equipment performing a safety control operation, at least when a failure indication about integrity verification of a sub-link signaling bearer is received.
Provided in the present invention are an information transmission method and a node device. The method comprises: negotiating target information with a second node device; and according to the target information, determining working information of a third node device, wherein the target information comprises at least one of first information, second information, feedback information of the first information and feedback information of the second information; the working information comprises identification information of the third node device, and further comprises at least one of the following items: switch information of a switching element of a reflection or refraction unit in the third node device, a working mode of the third node device, phase related information, amplitude related information, polarization mode related information and frequency related information.
Provided in the present application are a pilot information symbol sending method, a channel estimation method, and a communication device. The pilot information symbol sending method comprises: according to a discrete Fourier transform (DFT) matrix and a sensing matrix, determining a pilot information symbol corresponding to each antenna on each pilot resource; and sending a corresponding pilot information symbol on each of the pilot resources for each of the antennas, the sensing matrix being determined by the training of channel information.
Provided are a channel quality indicator reporting method and an integrated access backhaul node. The channel quality indicator reporting method comprises: acquiring target CQI types needing to be reported, wherein interference information used during the calculation of CQIs of different target CQI types is different, and in the interference information used during the calculation of the CQIs of the target CQI types, the interference of an IAB-DU on the reception of an IAB-MT is taken into consideration; and calculating and reporting the CQIs of the target CQI types.
Disclosed in the present application are an information sending method, a resource processing method, an apparatus, and an electronic device. The sending method comprises: sending first information to at least one second device, the first information being used for assisting the second device in selecting or reserving a resource for data transmission.
Embodiments of the present application provide a state indication method, a device, and a system. The method comprises: a relay core network device receives first state indication information sent by a first device, the first state indication information comprising at least one of first indication information and second indication information, the first indication information instructing a relay UE to perform UE-to-network relay communication, the second indication information instructing the relay UE to perform UE-to-network relay communication for an emergency service, and the first state indication information being used for determining not to initiate a NAS signaling connection release process of the relay UE.
The present invention provides a radio-frequency circuit and an electronic device. The radio-frequency circuit comprises: a radio-frequency transceiver having a first transmitting port, a first radio-frequency module connected to a first antenna array, a second radio-frequency module connected to a second antenna array, and a first switch; a first input end of the first switch is connected to the first transmitting port, and two output ends of the first switch are respectively connected to the two radio-frequency modules; when the first switch is in a first state, the first transmitting port is communicated with the first radio-frequency module; when the first switch is in a second state, the first transmitting port is communicated with the second radio-frequency module.
H04B 7/06 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station
19.
DOWNLINK RECEPTION TRIGGERING METHOD, TERMINAL AND NETWORK-SIDE DEVICE
Provided are a downlink reception triggering method, a terminal and a network side device. The terminal side method comprises: sending a first uplink signal, the first uplink signal being used for triggering first downlink reception.
Provided in embodiments of the present application are a device interaction method and a core network device. The method comprises: a first core network device receives identification information of at least one UE sent by a first device, the at least one UE comprising at least one among the following: a UE that has established a UE-to-network relay connection with a first UE, and a UE that is to establish a UE-to-network relay connection with the first UE; and the first core network device interacts with a second core network device according to identification information of a second UE, the second UE being any one among the at least one UE, and the first core network device being a core network device that serves the first UE, and the second core network device being a core network device that serves the second UE.
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
H04W 40/22 - Communication route or path selection, e.g. power-based or shortest path routing using selective relaying for reaching a BTS [Base Transceiver Station] or an access point
H04W 76/11 - Allocation or use of connection identifiers
21.
REMOTE UE TRANSMISSION METHOD AND APPARATUS, AND REMOTE UE CONFIGURATION METHOD AND APPARATUS, AND ELECTRONIC DEVICE
The present invention relates to the technical field of communications, and provides a remote UE transmission method and apparatus, and a remote UE configuration method and apparatus, and an electronic device. The remote terminal UE transmission method comprises: obtaining from a network device or a relay UE a configuration parameter of a PC5 interface used for transmitting a relay service; and establishing a sidelink radio bearer (SLRB) and performing data transmission according to the obtained configuration parameter.
H04W 40/22 - Communication route or path selection, e.g. power-based or shortest path routing using selective relaying for reaching a BTS [Base Transceiver Station] or an access point
H04W 76/23 - Manipulation of direct-mode connections
22.
TRANSMISSION PRIORITY PROCESSING METHOD, TERMINAL AND NETWORK SIDE DEVICE
Provided are a transmission priority processing method, a terminal and a network side device. The transmission priority processing method, which is applied to a terminal, comprises: when a transmission conflict exists for at least one uplink signal, executing P comparison operations; an i-th comparison operation is used to compare the priorities of N uplink signals for which a transmission conflict exists at a first moment, the first moment being the moment of execution of the i-th comparison operation, the value of i ranging from 1 to P, P being a positive integer less than or equal to K, and both K and N being integers greater than 1.
Provided in the embodiments of the present invention are an information processing method and apparatus, and a communication device, wherein same relate to the technical field of communications. The information processing method comprises: triggering a preemptive BSR; and according to a first condition during the process starting from triggering of the preemptive BSR to generation of the preemptive BSR, canceling the preemptive BSR, wherein the first condition comprises at least one of the following: the condition of reception of uplink data, and the condition of triggering of a target BSR, and the target BSR being at least one of a conventional BSR and a periodic BSR.
The present invention provides a service sending method, a service sending mode configuring method, and a related device. The service sending method comprises: receiving a first message from a core network side device, the first message comprising a multicast service identifier and mode strategy information; and sending data of a multicast service corresponding to the multicast service identifier by using a first sending mode, the first sending mode being a sending mode determined according to the mode strategy information, or the first sending mode being a sending mode indicated by the mode strategy information.
Provided are a mobility management method, a source base station, a target base station and a terminal device. The method comprises: receiving a report message sent by a terminal device, wherein the terminal device is a terminal device receiving data of a first multicast service, and the report message includes a measurement result; and sending a switching command to the terminal device, wherein the switching command is used for instructing the terminal device to switch to a target base station, and the target base station is determined according to the measurement result.
Provided in the present invention are a method for determining PSFCH resources, a configuration method and a communication device. The method comprises: determining PSFCH resources of a target object according to acquired PSFCH resource configuration information, wherein the target object comprises at least one of the following: a carrier, a bandwidth part BWP and a resource pool, and the PSFCH resources comprise at least one among a PSFCH sending resource and a PSFCH receiving resource; and performing a target operation on feedback information on the PSFCH resources, wherein the target operation comprises at least one among a receiving operation and a sending operation.
Provided are a multicast service session operation method and apparatus, and a communication device. The multicast service session operation method comprises: receiving, from a terminal, a request that comprises multicast service information; and sending a first call parameter to a second network function, wherein the first call parameter is used to call a multicast context service operation of the second network function.
H04L 65/1069 - Session establishment or de-establishment
H04W 4/06 - Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
28.
MULTICAST SERVICE IMPLEMENTATION METHOD AND APPARATUS, AND COMMUNICATIONS DEVICE
Disclosed are a multicast service implementing method, a device, and a communication device, related to the technical field of communications. The multicast service implementing method, applicable in a first network function of the communication device, comprises: receiving a request of a terminal and carrying multicast service information; and executing a unicast session establishment process to establish a unicast session connection with the terminal.
Provided in the embodiment of the present invention are a method for selecting an uplink transmission resource, and a terminal. The method comprises: if the priority of at least one PUSCH resource on M carriers is higher than or equal to the priority of PUCCH resources on N carriers, selecting at least two PUSCH resources on the M carriers for uplink transmission; otherwise, selecting at least one PUCCH resource on the N carriers for uplink transmission, wherein PUSCH resources on the M carriers conflict with the PUCCH resources on the N carriers, the M carriers and the N carriers belong to the same cell group, M and N are natural numbers, M is greater than one, and N is greater than or equal to one.
Disclosed is a photographing module, comprising a module housing (100), a first support frame (200), and a camera (300). The module housing (100) is provided with a housing cavity (110). The first support frame (200) is at least partly provided within the housing cavity (110). The camera (300) is at least partly provided within the housing cavity (110); moreover, the camera (300) is pivoted to the first support frame (200) via a first pivot (400), and the camera (300) is capable of rotating around the first pivot (400). The first support frame (200) is pivoted to the module housing (100) via a second pivot (500). The first support frame (200) rotates around the second pivot (500). The axis of the first pivot (400) and the axis of the second pivot (500) intersect each other or are on different planes. Also disclosed is an electronic device.
G03B 30/00 - Camera modules comprising integrated lens units and imaging units, specially adapted for being embedded in other devices, e.g. mobile phones or vehicles
Disclosed in the present disclosure is a photographing module, comprising a module housing, a first support, a camera, a second support and a rolling body support, wherein the module housing is provided with a housing inner cavity, the first support is at least partially arranged in the housing inner cavity, the first support is hinged to the module housing via a first hinge shaft, the first support can rotate around the first hinge shaft, the camera is fixedly connected to the second support, the rolling body support is provided with a rolling body, and the second support is in rolling connection with the rolling body; the camera can rotate about a lens axis of the camera along with the second support, the rolling body support is hinged to the first support via a second hinge shaft, and the camera and the second support can rotate around the second hinge shaft along with the rolling body support; and an axis of the first hinge shaft and an axis of the second hinge shaft intersect or are in different planes, the lens axis and the axis of the first hinge shaft intersect or are in different planes, and the lens axis and the axis of the second hinge shaft intersect or are in different planes. Further disclosed in the present disclosure is an electronic device.
G03B 30/00 - Camera modules comprising integrated lens units and imaging units, specially adapted for being embedded in other devices, e.g. mobile phones or vehicles
Provided in embodiments of the present disclosure are a message transmission method and a terminal. The method comprises: transmitting a first discovery message of a sidelink (SL), wherein the first discovery message is transparently transmitted between an upper layer and a MAC layer, and a priority level of the first discovery message is determined by whether or not the first discovery message is for public safety use; or transmitting, by means of a logical channel, the first discovery message between the upper layer and the MAC layer, wherein the priority level of the first discovery message is determined by the logical channel and/or a corresponding bearer.
Embodiments of the present disclosure provide a radio frequency front-end circuit and a mobile terminal. The radio frequency front-end circuit comprises a first transmission path, a first reception path, a second reception path, a third reception path, a fourth reception path, a double-pole four-throw switch, a first single-pole double-throw switch, a second single-pole double-throw switch, a third single-pole double-throw switch, a first antenna, a second antenna, a third antenna, and a fourth antenna.
Embodiments of the present disclosure pertain to the technical field of communications, and disclose a sidelink resource mapping method, a transmission method, a network apparatus, and a terminal apparatus. The method comprises: acquiring a set of PSFCH resources corresponding to each physical sidelink transmission channel resource in a set of physical sidelink transmission channel resources, the physical sidelink transmission channel resources comprising a PSSCH resource and/or a PSCCH resource; configuring, according to a first pre-determined order of a first resource factor, an index number for each physical sidelink transmission channel resource in the set of physical sidelink transmission channel resources; configuring, according to a second pre-determined order of a second resource factor, index numbers of the set of PSFCH resources; and setting up a mapping relationship between index numbers of the physical sidelink transmission channel resources and index numbers of the PSFCH resources corresponding to the physical sidelink transmission channel resources.
The present application discloses a method and an apparatus for transmitting feedback information. The method for transmitting feedback information is applied to a terminal at a receiving end, and comprises: acquiring information of a feedback channel format, and generating a feedback channel according to the information of the feedback channel format, the feedback channel format being in a sequence form; and sending feedback information to a terminal at a sending end by means of the feedback channel.
Provided in the embodiments are a relay reselection method, a device and a medium. The method comprises: if a first relay reselection condition is met, executing a corresponding relay reselection operation.
H04W 40/22 - Communication route or path selection, e.g. power-based or shortest path routing using selective relaying for reaching a BTS [Base Transceiver Station] or an access point
Embodiments of this disclosure disclose an uplink full-power transmission method and a device. The method is applied to a terminal device and includes: performing uplink transmission based on an uplink transmit power obtained through scaling by a power scaling coefficient, where the power scaling coefficient is determined based on a power control factor, and the power control factor includes at least one of the following: an uplink full-power transmission capability of the terminal device, a supported transmission precoding matrix indicator TPMI reported by the terminal device, a TPMI delivered by a network device, a working mode reported by the terminal device, or the number of antenna ports for each SRS resource in a sounding reference signal SRS resource set that is configured by the network device based on the working mode.
Disclosed in the embodiments of the present disclosure are a sidelink rate matching and resource mapping method and device, used for providing a solution for sidelink communication rate matching and resource mapping. The method is executed by a terminal device, and comprises: on the basis of the resource size of a target resource, calculating the encoding bit length E that can be carried by available resources not including the target resource; and performing resource mapping on the basis of an encoding bit sequence outputted by rate matching, the length of the encoding bit sequence being equal to E or equal to E+E', and E' being the encoding bit length that can be carried in the target resource.
The present disclosure provides a measurement method, a resource configuration method, a terminal, and a network-side device. The measurement method corresponds to a terminal, and comprises: receiving configuration information sent by a network-side device, wherein the configuration information is at least used to indicate to perform L1-SINR measurement, and comprises CMR information and IMR information, and preset associations are present between CMRs in the CMR information and IMRs in the IMR information; determining, according to the preset associations, a target CMR and a target IMR for measuring a target L1-SINR; and respectively measuring the target CMR and the target IMR so as to obtain the target L1-SINR.
Embodiments of the present invention provide a method and device for supporting port control. The method comprises: receiving port related control information; and performing port related operations on a port according to the port related control information, wherein the port related control information comprises at least one of: a port identifier, service-class information, first routing information, priority regeneration related information, port transmission rate related information, bandwidth availability parameter related information, and transmission selection algorithm related information.
A printed circuit board assembly and a terminal are provided. The printed circuit board assembly includes: a first printed circuit board and a second printed circuit board, where the second printed circuit board is electrically connected to the first printed circuit board through at least four solder joints; the at least four solder joints include a first solder joint, a second solder joint, a third solder joint, and a fourth solder joint, the first solder joint communicates with the second solder joint, the third solder joint communicates with the fourth solder joint, and at least one solder joint and/or at least one printed circuit board cavity is provided between the second solder joint and the third solder joint; and the printed circuit board cavity is a recess structure that is recessed inwards from a surface of the printed circuit board.
Provided in the embodiments of the present disclosure are a terminal capability identification operating method and a communication device, the operating method comprising: when a first condition is met, deleting terminal capability identification; and/or, when a second condition is met, retaining the terminal capability identification.
Provided are a loudspeaker and a terminal device. The loudspeaker comprises a loudspeaker shell and a loudspeaker main body, with the loudspeaker main body being arranged in the loudspeaker shell. The loudspeaker main body and the loudspeaker shell form a front loudspeaker cavity and a rear loudspeaker cavity; the loudspeaker shell is provided with a sound outlet channel, and the sound outlet channel communicates with the front loudspeaker cavity; the rear loudspeaker cavity comprises a first sub-cavity, the loudspeaker shell comprises a first separator arranged in the first sub-cavity, and the first separator divides the first sub-cavity into a resonant tube and a resonant cavity, and the resonant tube communicates with the resonant cavity; and a side wall of the front loudspeaker cavity is provided with a first connection hole, and the front loudspeaker cavity communicates with the resonant tube by means of the first connection hole.
The present disclosure provides a parameter acquisition method and a terminal device, which relate to the field of communication technology, so as to solve the problem that the calibration of a range sensor is complex. Said method comprises: acquiring, in a photographing preview interface, a preview image of a target object; acquiring a first measurement value of a range sensor when the degree of overlapping between the preview image and a calibration region in the photographing preview interface exceeds a threshold; and acquiring, on the basis of the first measurement value and a calibration distance, a calibration offset corresponding to the target object.
In a terminal device disclosed in this disclosure, a device housing includes an installation space and a first inner cavity that are isolated from each other. A speaker is installed in the installation space. The speaker includes a speaker shell provided with a sound hole and a second inner cavity, and a vibration piece, a signal amplifier, and a speaker body that are disposed in the second inner cavity. The first inner cavity and the second inner cavity are isolated from each other. A circuit board is installed in the first inner cavity. The circuit board is provided with a sound signal processing module and a vibration sound wave generation device. The vibration sound wave generation device is connected to the sound signal processing module. The vibration sound wave generation device converts a sound signal from the sound signal processing module into a vibration signal. The vibration piece vibrates under the action of the vibration signal and generates an electrical signal. The signal amplifier is connected to the vibration piece and amplifies the electrical signal, and the speaker body is connected to the signal amplifier and produces sound based on the amplified electrical signal through the sound hole.
Embodiments of the present invention provide a method for transmitting indication information and a communication device. The method comprises: transmitting a medium access control control element (MAC CE) command, wherein the MAC CE command is used for indicating activation of N first objects and the mapping relationship between the first objects and a code point of a transmission configuration indication (TCI) field in downlink control information (DCI); the N first objects comprise TCI state in M TCI state groups and N-M TCI states, N is a positive integer, and M is an integer less than or equal to N.
This disclosure relates to the communications field, and provides an SSB transmission indication method and apparatus. The method is applied to a terminal, and the method includes: receiving SSB transmission indication information, where the SSB transmission indication information is used to indicate a candidate time position of an SSB. The SSB transmission indication information is used to indicate a candidate time position of an SSB. The SSB transmission indication information comprises a bitmap. Each bit in the bitmap corresponds to a quasi co-location index, and each quasi co-location index corresponds to a group of time positions. According to this disclosure, a candidate time position in which an SSB can be transmitted is indicated, thereby implementing indication of SSB transmission when a time position in which an SSB is transmitted is unknown.
Provided in the present disclosure are a radio frequency front end circuit and a mobile terminal. The circuit comprises: a gating switch, connected separately to a first antenna, a second antenna and a radio frequency circuit module; a double-pole, double-throw switch, connected separately to the gating switch, a third antenna, a fourth antenna and a first radio frequency circuit; the radio frequency circuit module being connected to a first target antenna of the first antenna and the second antenna by means of the gating switch, and receiving and/or transmitting a signal by means of the first target antenna; or, the radio frequency circuit module being connected to a second target antenna of the third antenna and the fourth antenna by means of the gating switch and the double-pole, double-throw switch, and receiving and/or transmitting a signal by means of the second target antenna; the first radio frequency circuit being connected to one of the third antenna and the fourth antenna by means of the double-pole, double-throw switch.
H04B 7/0404 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas the mobile station comprising multiple antennas, e.g. to provide uplink diversity
H04B 1/401 - Circuits for selecting or indicating operating mode
H04B 7/06 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station
49.
RADIO FREQUENCY FRONT-END CIRCUIT AND MOBILE TERMINAL
The present disclosure provides a radio frequency front-end circuit and a mobile terminal. The circuit comprises: a first signal transmitting circuit and a second signal transmitting circuit; a first switch and a second switch; a first double-pole double-throw switch, wherein, the first signal transmitting circuit is turned on through the first double-pole double-throw switch and the first switch, and transmits signals through a first antenna or a second antenna; or the first signal transmitting circuit is turned on through the first double-pole double-throw switch and the second switch, and transmits signals through a third antenna or a fourth antenna; the second signal transmitting circuit is turned on through the first double-pole double-throw switch and the first switch, and transmits signals through the first antenna or the second antenna; or the second signal transmitting circuit is turned on through the first double-pole double-throw switch and the second switch, and transmits signals through the third antenna or the fourth antenna.
Disclosed in the present disclosure are a positioning reference signal configuration method, a network device, and a terminal. The method comprises: sending resource configuration information of a positioning reference signal; and sending the positioning reference signal according to a resource pattern indicated by the resource configuration information, the resource configuration information comprising at least one parameter option, the value of the parameter option being one of at least two optional values corresponding to the parameter option, and the resource pattern being related to the value of the parameter option.
Provided are an electronic device and an electronic device control method. The electronic device comprises a first side and a second side which are arranged facing away from each other, wherein a frame is provided between the first side and the second side; a display module is provided at the first side; at least part of the display module is light-transmitting; and there is a gap between the display module and the frame. A first light-emitting device, a second light-emitting device and a light-receiving device are provided in the electronic device, wherein the first light-emitting device and the light-receiving device are both provided below the display module, and are provided corresponding to a light-transmitting display region of the display module; and the first light-emitting device transmits an optical signal outwards through the light-transmitting display region, and the second light-emitting device transmits an optical signal outwards through the gap.
Provided are an information sending method, an information detection method, a terminal device and a network device. The information sending method comprises: sending DCI to a terminal device according to the type of current random access, wherein the DCI is used for scheduling a random access response message corresponding to the type of the current random access.
H04W 72/232 - Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal the control data signalling from the physical layer, e.g. DCI signalling
This disclosure provides a charging circuit and an electronic device, where the charging circuit includes: a charging receptacle; a temperature control and surge protection circuit including: a switch tube; a temperature control circuit, configured to acquire temperature data of the charging receptacle and control a working status of the switch tube; a voltage control circuit. Therefore, switch tube multiplexing is implemented by using one switch tube to implement over-temperature protection and anti-surge protection for a circuit simultaneously, thereby achieving dual protection, reducing the number of components, reducing costs, and saving PCB layout area and space.
Embodiments of the present disclosure provide an operation method for terminal capability identification and a communication device, the operation method includes: performing a first related operation of terminal capability identification, the first related operation of the terminal capability identification includes at least one of the following: deleting or suspending the terminal capability identification; changing the terminal capability identification of the first type in the terminal context to the terminal capability identification of the second type; and sending operation information of the terminal capability identification.
Provided are a beam failure recovery method, a processing method, a terminal and a network side device. The method comprises: acquiring N pieces of configuration information, wherein the N pieces of configuration information are respectively applicable to different transmitting and receiving points (TRPs), and the configuration information includes parameters for beam failure recovery; and where it is determined that a beam failure event occurs in at least one TRP, sending a beam failure recovery request according to the configuration information.
Disclosed are a random access transmission method and a terminal. The method comprises: obtaining resource allocation information used for random access, wherein the resource allocation information indicates at least two candidate random access resources, and the candidate random access resources comprise a candidate data transmission resource; selecting a target random access resource from the at least two candidate random access resources according to a preset selection rule; and on the target random access resource, transmitting a random access request message.
Provided by the present disclosure are interface availability reporting and indicating methods and devices. The reporting method comprises: an access (AS) layer reporting availability information of a target interface of a first terminal device to an up layer, wherein the availability information comprises at least one among first information, second information, third information, fourth information and fifth information, the first information comprises the availability of the target interface, the second information comprises link information applicable to the availability of the target interface, the third information comprises time information applicable to the availability of the target interface, the fourth information comprises sidelink resource selection mode information applicable to the availability of the target interface, and the fifth information comprises current sidelink resource selection mode information of the first terminal device.
Provided are an object receiving method and device. The method comprises: determining an association relationship between a target object and a source object, wherein the object comprises a reference signal or channel, and the association relationship comprises a quasi-co-location (QCL) relationship or a receiving beam relationship.
Provided are an information receiving method, an information sending method, a terminal, and a network side device. The information receiving method comprises: detecting an SSB; according to transmission configuration information of first information, determining a candidate SSB set quasi-co-located with a detected first SSB, wherein the first information comprises the SSB; and according to the first SSB and the candidate SSB set, carrying out first processing, wherein the first processing comprises one of the following: receiving system information scheduled by a physical control channel associated with the first SSB; carrying out radio link monitoring; and carrying out radio resource management and measurement.
The present disclosure provides a receiving mode switching method and a terminal. Said method comprises: if a receiving mode switching event occurs, switching the receiving mode of a terminal from a first receiving mode to a second receiving mode.
Provided are a method for ensuring data delivery and a communication device, the method for ensuring data delivery, which is applied to a terminal, comprising: acquiring information of an IPsec channel, the IPsec channel being used to deliver information between the terminal and a second network; and according to the information of the IPsec channel, executing an association operation for a channel of a first network.
Disclosed is a camera hole cover plate, comprising: a cover plate main body comprising a transparent area used for covering a display screen, and a cover plate edge, wherein the cover plate edge and the cover plate main body are of an integrated structure; the cover plate edge is arranged so as to surround the cover plate main body; and an area, outside the transparent area, of the cover plate edge comprises a frosted area.
The present disclosure discloses a receiver apparatus and a mobile device. The receiver apparatus comprises a bidirectional receiver and a sound chamber support. The bidirectional receiver has a first sound output region and a second sound output region. The sound chamber support has a sound chamber, and the bidirectional receiver is disposed in the sound chamber. The sound chamber support has a first sound outlet and a second sound outlet separately communicating with the sound chamber. The first sound outlet and the second sound outlet are disposed opposite to each other. The first sound outlet communicates with the first sound output region, and the second sound outlet communicates with the second sound output region. The mobile device employs the receiver apparatus.
H04M 1/03 - Constructional features of telephone transmitters or receivers, e.g. telephone hand-sets
64.
METHOD FOR INDICATING TERMINAL CAPABILITY, METHOD FOR OBTAINING TERMINAL CAPABILITY, METHOD FOR INDICATING CAPABILITY IDENTIFIER, METHOD FOR OBTAINING CAPABILITY IDENTIFIER, AND COMMUNICATIONS DEVICE
Some embodiments of the present application provide a terminal capability indicating method, a terminal capability identification indicating method, a terminal capability obtaining method, a terminal capability identification obtaining method, and a communication device. The indicating method comprises: sending first information, the first information comprising at least one of the following: first capability identification information, first indication information, and second indication information.
Disclosed by the present disclosure are an information transmission method and a communication device. The method comprises: acquiring a reference object group that contains at least two reference objects, the reference objects contained in the reference object group being quasi co-located; and performing information transmission according to the reference object group.
Disclosed are a method for determining an occupation time of a channel state information (CSI) processing unit, and a terminal device. Said method comprises: determining an occupation time of a CSI processing unit according to a CSI report type in a CSI report configuration, the CSI report type comprising: CSI information reported by the terminal device to a network device being beam measurement information, or the CSI information reported to the network device having no content and the channel state information reference signal (CSI-RS) resource not being used for tracking reference signal (TRS) measurement.
Provided are a terminal device capability information processing method, a terminal device and a network side device. The method comprises: where the size of the terminal device capability information is greater than the maximum value of the size of PDCP SDU, sending a first message to a network side device, wherein the first message comprises first information, and the first information comprises information used for indicating that the size of the terminal device capability information is greater than the maximum value of the size of PDCP SDU.
The present invention provides an information transmission method and a terminal. The method comprises: under a condition that resource overlapping occurs in a first channel state information (CSI) report and a second CSI report, performing the following operations: if a physical channel corresponding to the first CSI report is a physical uplink control channel (PUCCH), a physical channel corresponding to the second CSI report is the PUCCH, and a multi-CSI-PUCCH-resource list is configured, transmitting a CSI report in which resource overlapping occurs according to a resource in the multi-CSI-PUCCH-resource list; and/or, if the physical channel corresponding to the first CSI report is the PUCCH and the physical channel corresponding to the second CSI report is a physical uplink shared channel (PUSCH), and the PUCCH and the PUSCH are transmitted in different carriers, discarding the CSI reports carried by the PUCCH and the PUCCH, and transmitting the CSI reports carried by the PUSCH and the PUSCH.
The present disclosure provides a receiving method, a transmission method, a terminal, and a network apparatus. The receiving method is applicable to a terminal, and comprises: receiving, in a search space corresponding to a CORESET, a physical downlink control channel (PDCCH), wherein the CORESET corresponds to different times and occupies different positions in a frequency domain, or for CORESETs corresponding to different times, the search space occupies different positions in the frequency domain or at least two search spaces of the CORESET occupy different positions in the frequency domain.
H04W 72/232 - Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal the control data signalling from the physical layer, e.g. DCI signalling
Provided are a random access method and terminal. The method comprises: in the ith random access process, sending first data in first data content, wherein the first data content is data content cached in the (i-1)th random access process, at least one of the ith random access process and the (i-1)th random access process is a two-step random access process, and i is an integer greater than 1.
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 be 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.
The present disclosure provides an Ethernet packet header compression method, a decompression method, and a device. Said compression method comprises: transmitting, by means of a transmitting PDCP entity of a transmitting end, a first PDCP PDU corresponding to a first data radio bearer (DRB); when the first DRB configures the Ethernet packet header compression function, the first PDCP PDU comprises: one or more pieces of first information, the first information being used for indicating whether a specific Ethernet domain in an Ethernet packet header of a first PDCP SDU corresponding to the first PDCP PDU is multiplexed.
Provided in the embodiments of the present disclosure are a connection failure recovery method and device, the method comprising: determining the reason for MCG failure; on the basis of the reason for MCG failure, implementing corresponding connection failure recovery processing and/or reporting MCG failure-related information.
Provided by the embodiments of the present invention are a determination method, a terminal, and a network device, relating to the technical field of communications, and intended to solve the problem of uplink transmission delay in the related art when a UE uses semi-static scheduling for uplink transmission on an unlicensed band. The method Include: receiving first information from a network device; the first information is used to indicate M candidate transmission opportunities for an uplink data channel in a first period, the first period is a period of semi-static scheduling resources on an unlicensed band, and M is a positive integer greater than or equal to 2. and determining M candidate transmission opportunities for the uplink data channel in the first period according to the first information.
Provided are an LAN service control method and a communication device. The LAN service control method comprises: sending LAN service related information, wherein the LAN service related information comprises at least one of the following: LAN service capability information of a terminal, position information of the terminal, LAN service subscription information and LAN service request information.
H04L 41/0893 - Assignment of logical groups to network elements
H04L 41/5041 - Network service management, e.g. ensuring proper service fulfilment according to agreements characterised by the time relationship between creation and deployment of a service
H04L 67/12 - Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
H04L 67/51 - Discovery or management thereof, e.g. service location protocol [SLP] or web services
H04L 67/52 - Network services specially adapted for the location of the user terminal
H04L 67/60 - Scheduling or organising the servicing of application requests, e.g. requests for application data transmissions using the analysis and optimisation of the required network resources
76.
CAPABILITY INDICATION METHOD, TERMINAL, AND NETWORK-SIDE NETWORK ELEMENT
The present invention provides a capacity indication method, and a terminal and a network-side network element. The capacity indication method comprises: obtaining first information, the first information comprising at least one of the following items: first indication information of a terminal capacity and terminal capacity information mapped by the first indication information; and sending second indication information of the terminal capacity according to the first information.
Provided in the present disclosure is a redistribution method and terminal, which solve the problem of the transmission currently carried out by a UE needing to be stopped during the process of re-establishing an RRC connection. The processing method of the present disclosure comprises: when the wireless connection between a terminal and a master node (MN) is lost, reporting an MN wireless connection lost indication to a secondary node (SN); if an RRC redistribution message is received before a target timer times out, carrying out redistribution processing according to said RRC redistribution message.
The present invention provides a control method, a terminal and a network element. The control method comprises: sending first information, the first information comprising at least one of the following: information for indicating whether the terminal supports ability signaling optimization and the ability signaling optimization capability of the terminal.
The present disclosure discloses a channel detection instruction method, a terminal, and a network device. The method comprises: obtaining at least two sets of configuration information related to monitoring a physical downlink control channel (PDCCH); determining target configuration information from the at least two sets of configuration information; and detecting the PDCCH according to the target configuration information.
H04W 72/231 - Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal the control data signalling from the layers above the physical layer, e.g. RRC or MAC-CE signalling
Provided are a method for monitoring a PDCCH, and a terminal and a network device, which relate to the technical field of communications and are used for solving the problem in the related art that since the maximum processing capacity of a UE for performing blind detection on a CC or a PDCCH of a cell during cross-carrier scheduling is not limited, a corresponding blind detection behavior cannot be rationally configured for the UE. The method comprises: monitoring a PDCCH according to PDCCH blind detection capacity information of N scheduling cells, wherein the N scheduling cells are cells from among M cells configured for a terminal by a network device, and the M cells further comprise: X scheduled cells; the PDCCH blind detection capacity information of the N scheduling cells is relevant to cell parameters of the M cells; the PDCCH blind detection capacity information of the N scheduling cells is used for indicating the maximum processing capacity of the terminal for performing blind detection on the PDCCH under each scheduling cell or the N scheduling cells within a unit time; and M and N are positive integers greater than or equal to 1, X is a positive integer greater than or equal to 0, and M is equal to N + X.
Provided are a method for cell selection, a user equipment unit, and a network side device. The method comprises: a user equipment (UE) unit reading first system information of a first cell at a first frequency point; and if the first system information of the first cell indicates barring of camping and intra-frequency re-selection and a set condition is satisfied, the UE unit refraining from performing selection, or re-selection, or selection and re-selection with respect to the cell at the first frequency point.
Disclosed is a mobile terminal, comprising: a housing (100) having an internal cavity (110); and a receiver (200) provided in the internal cavity (110). The internal cavity (110) comprises a receiver front cavity (111) and a receiver rear cavity (112) separated from each other. The receiver front cavity (111) and the receiver rear cavity (112) are respectively positioned at front and rear sides of the receiver (200) in a vibration direction of a diaphragm. The housing (100) has a first audio output hole in communication with the receiver front cavity (111) and a second audio output hole in communication with the receiver rear cavity (112).
Disclosed in the embodiments of the present application are a search space parameter determination method and a terminal device, said method comprising: receiving dedicated signaling, the dedicated signaling being used for configuring the TCI state of CORESET#0 for the terminal device, the Source RS indicated by the TCI state of CORESET#0 being a CSI-RS; determining a target SSB having a first association relationship with the CSI-RS; and determining, according to the target SSB, parameter information about search space#0 in CORESET#0.
Provided are a scheduling parameter determination method and a scheduling parameter configuration method, a terminal, and a network-side device. The scheduling parameter determination method is applied to the terminal, and comprises: when the numerology of a PDCCH is different from the numerology of a carrier or a BWP where a PDSCH scheduled by the PDCCH is located, determining a currently used scheduling offset threshold according to a preset rule.
H04W 72/232 - Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal the control data signalling from the physical layer, e.g. DCI signalling
This disclosure provides a link quality monitoring method and a terminal, including: performing detection for a pre-configured RLM-RS to determine whether the RLM-RS is received; and reporting, based on whether the RLM-RS is received, in-sync or out-of-sync used to indicate link quality.
Provided are a connection reestablishment method and a relevant device. The method comprises: executing a switch process; and if the terminal satisfies a reestablishment trigger condition, initiating connection reestablishment on a first node, wherein the first node comprises at least one of a source node and a target node in the switch process.
The present invention provides a method for detecting UE capability, a method for reporting UE capability, a mobile terminal, and a server. The method for detecting UE capability comprises: receiving device information sent by a mobile terminal; sending an inquiry message for UE capability information to the mobile terminal according to the device information; and receiving the UE capability information sent by the mobile terminal according to the inquiry message.
An embodiment of the present disclosure provides a method for monitoring a paging message, a mobile terminal, and a server. The method for monitoring the paging message is operable by a mobile terminal and includes: detecting whether the mobile terminal is in a connected state where the mobile terminal is connected with a wireless access device accessing the Internet; when the mobile terminal is in the connected state where the mobile terminal is connected with the wireless access device, monitoring the paging message according to a first paging cycle; when otherwise, monitoring the paging message according to a second paging cycle, wherein the first paging cycle is longer than the second paging cycle, and the second paging cycle is equal to a cycle according to which a core network transmits the paging message.
A method for processing beam failure and a terminal are provided by the present disclosure. The method includes: determining a BFR event, wherein the beam failure recovery event includes an abnormality occurring in a BFR procedure or at least two cells both undergoing a BFR; executing a specific operation according to the BFR event.
The present invention provides a signal transmission method and a network device. The signal transmission method applied to the network device comprises: performing channel monitoring on the transmission direction of a synchronization signal block (SSB) in an unlicensed band prior to the transmission of the SSB; and if it is monitored that a channel is idle, transmitting the SSB.
A display method and a mobile terminal. The method comprises: receiving a sliding operation of a user on a mobile terminal screen (101); in response to the sliding operation, determining a target response area on the mobile terminal screen (102); determining, according to the correspondence of the response area and a desktop page, a target desktop page corresponding to the target response area in at least one desktop page of the mobile terminal, wherein each response area corresponds to one desktop page (103); and controlling the screen to display the target desktop page (104).
G06F 3/04817 - Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance using icons
G06F 3/04847 - Interaction techniques to control parameter settings, e.g. interaction with sliders or dials
G06F 3/04883 - Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures for inputting data by handwriting, e.g. gesture or text
Provided are a transmission method and device. The method comprises: when a dynamically scheduled PUSCH and a semi-statically scheduled PUSCH use the same first HARQ process, using the first HARQ process to send either of the semi-statically scheduled PUSCH and the dynamically scheduled PUSCH; or, using the first HARQ process to send the semi-statically scheduled PUSCH or to send the dynamically scheduled PUSCH, and then using the first HARQ process to send the dynamically scheduled PUSCH or to send the semi-statically scheduled PUSCH.
Disclosed are a method of controlling a screen to turn on or off, and a mobile terminal. The method comprises: when performing far infrared distance measurement, if a condition for periodic start of near infrared distance measurement is satisfied, interrupting the far infrared distance measurement, and starting near infrared distance measurement; and controlling, according to a result of the near infrared distance measurement, a screen of a mobile terminal to be in an off or on state, wherein an infrared ray transmission power corresponding to the far infrared distance measurement is greater than an infrared ray transmission power corresponding to the near infrared distance measurement.
A method of power saving in a wireless local area network is provided. The method, performed by a wireless device, includes acquiring TXOP(transmission opportunity) from access point(AP), the TXOP indicating an interval of time when the AP has the right to transmit at least one data block for multi user-multiple input multiple output(MU-MIMO) transmission, receiving a power saving indicator from the AP, the power saving indicator indicating whether the AP allows to enter doze state during the TXOP, and entering the doze state until the end of the TXOP if the power saving indicator indicates an allowance of entering the doze state.
In a mobile communication terminal, message content (e.g. kind of content and length of the message) and recipient information (e.g. telephone number or e- mail address) is received input from a user during a message creation process (404, 406) . After receiving a triggering signal indicating an end of the message creation process (408) , the message content and the recipient information is analyzed (410) . The analysis results in a indication of a most suitable transmission service for transmitting the message content to the recipient (412, 414, 416) . Then the message content is transmitted via the most suitabl message transmission service (e.g. as an sms, mms, e-mail) .