Embodiments of the present invention provide a power supply system, for use in supplying electric energy to a plurality of electric units. The power supply system comprises: a plurality of primary power supply units, wherein the primary power supply units each are used for supplying electric energy to at least two electric units, and the electric units each obtain the electric energy from at least two primary power supply units; and a backup power supply unit for supplying common backup power to the plurality of primary power supply units.
The present disclosure provides a filler wave protection method, comprising: determining that at least one filler wave among a plurality of filler waves is abnormal; acquiring preset attenuation value adjustment information, wherein the preset attenuation value adjustment information is attenuation value adjustment information corresponding to the case where at least one filler wave is abnormal; and updating a first attenuation value of a wavelength scheduling device on the basis of the preset attenuation value adjustment information to adjust a filler wave waveform, so that the difference between the adjusted filler wave waveform and an initial waveform is less than a preset threshold, wherein the initial waveform is a filler wave waveform under the condition where the plurality of filler waves are all normal. The present disclosure further provides a filler wave protection apparatus, a filler wave light source board, a system, a computer-readable medium, and a computer program product.
The present application provides a data transmission method, a communication node, and a storage medium. The method comprises: receiving a frame structure configuration of each sub-band in the frequency domain; and transmitting data on the basis of the frame structure configuration.
Provided in embodiments of the present disclosure is a cloud storage method for a terminal. The method comprises: generating a classification file of a local file by means of a classification path mounting service, and mounting the classification file; and mapping the classification file to a network storage device of a cloud desktop by means of disk redirection.
The present application relates to the technical field of communications, and discloses a state updating method for a link aggregation port, an electronic device, a storage medium, and a program product. The method comprises: when a state of at least one first port in a first-side aggregated link of a first switch device changes, determining, on the basis of the first port, a target number of second ports requiring a state update, wherein the second port is a port in a first state in a second-side aggregated link of the first switch device, the first port is a sending port of target data, and the second port is a receiving port of the target data; updating the state of the target number of second ports to a second state, wherein the first state is one of an either on state or an off state, the second state is the other of the on state or the off state, and accordingly, when the at least one first port state changes from a normal state to an abnormal state, the second state is the off state.
H04L 41/0833 - Configuration setting characterised by the purposes of a change of settings, e.g. optimising configuration for enhancing reliability for reduction of network energy consumption
H04L 43/0876 - Network utilisation, e.g. volume of load or congestion level
H04L 47/125 - Avoiding congestionRecovering from congestion by balancing the load, e.g. traffic engineering
H04L 49/111 - Switch interfaces, e.g. port details
6.
WAVELENGTH ALIGNMENT METHOD FOR MICRO-RING MODULATOR, OPTICAL COMMUNICATION DEVICE, AND PHOTONIC INTEGRATED CIRCUIT
The present application relates to the technical field of optical communications, and discloses a wavelength alignment method for a micro-ring modulator, an optical communication device, and a photonic integrated circuit. The wavelength alignment method for a micro-ring modulator in embodiments of the present application comprises: a first optical communication device sending a first signal to a second optical communication device, wherein the first signal is obtained by using a micro-ring modulator to modulate first information and radio frequency information to be transmitted, a frequency band corresponding to the first information is different from a frequency band corresponding to said radio frequency information, and the first information comprises first heating information used for heating the micro-ring modulator; receiving a second signal from the second optical communication device, wherein the second signal comprises the first heating information and average optical power information of the first signal; and performing wavelength alignment on the micro-ring modulator on the basis of the second signal.
Embodiments of the present disclosure provide a communication satellite tracking method, a storage medium, and an electronic apparatus. The method comprises: on the basis of an initial antenna pointing position point of a satellite tracking device, acquiring a first detection plane and a second detection plane on a spherical surface taking the satellite tracking device as the center, wherein the first detection plane corresponds to a first detection direction, and the second detection plane corresponds to a second detection direction; respectively acquiring a first detection point and a second detection point on the basis of the first detection direction and the second detection direction; and determining a tracking direction on the basis of the received signal strength of the first detection point and the second detection point and the received signal strength of the initial position point.
The present application provides a time-frequency offset synchronization method, an electronic device, a storage medium, and a program product. The method comprises: a base station sending multiple pieces of time-frequency offset measurement information to a terminal device, each piece of time-frequency offset measurement information being used by the terminal device to perform time-frequency offset measurement on one TRP; when it is determined that the terminal device enters an overlapping area of a plurality of TRPs, sending first instruction information to the terminal device, the first instruction information being used for instructing the terminal device to perform time-frequency offset measurement on the plurality of TRPs; and when it is determined that the terminal device switches to a first TRP among the plurality of TRPs, sending second instruction information to the terminal device, the second instruction information being used for instructing the terminal device to use a time-frequency offset measurement result of the first TRP.
Provided in the embodiments of the present application are an interfering terminal identification method, a communication device, a storage medium and a product. The method comprises: acquiring interference information of a high-interference cell broadcast by a second network device, wherein the interference information comprises an interference state of each resource block in the high-interference cell (310); acquiring resource block scheduling information of a terminal in a first target cell (320); acquiring, from the interference information, target resource blocks matching resource blocks scheduled by the terminal (330); and when the interference states of the target resource blocks are all high interference, determining that the terminal is an interfering terminal (340).
The present application provides a signaling switching method, a communication device, and a storage medium. The signaling switching method is applied to a first communication device and comprises: receiving an RRC signaling set, the RRC signaling set at least comprising two different types of RRC signaling; and, on the basis of a first activation condition, activating RRC signaling in the RRC signaling set.
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
11.
HEAT DISSIPATION STRUCTURE AND HEAT DISSIPATION DEVICE
A heat dissipation structure (1), comprising a heat exchange component (12) and a flow channel assembly (11) connected to the heat exchange component (12), wherein a flow space is formed between the heat exchange component (12) and the flow channel assembly (11); the flow channel assembly (11) is provided with a flow channel structure; on a first surface (110) of the flow channel assembly that is opposite the heat exchange component, the flow channel structure has a plurality of inflow ports (211) and a plurality of outflow ports (221), which are in communication with the flow space; and the plurality of inflow ports (211) and the plurality of outflow ports (221) are alternately arranged at intervals, such that a fluid flowing into the flow space through each inflow port (211) can flow out through the outflow port (221) adjacent to the inflow port (211). A heat dissipation device, comprising the heat dissipation structure (1).
H01L 23/473 - Arrangements for cooling, heating, ventilating or temperature compensation involving the transfer of heat by flowing fluids by flowing liquids
H01L 23/367 - Cooling facilitated by shape of device
F28F 9/22 - Arrangements for directing heat-exchange media into successive compartments, e.g. arrangements of guide plates
12.
DATA SHARING METHODS, CLOUD COMPUTER AND TERMINAL DEVICE
The present application belongs to the field of cloud computers. Disclosed are data sharing methods, a cloud computer and a terminal device. A data sharing method is applied to a cloud computer, and the cloud computer comprises a cloud computer terminal and a virtual machine. The data sharing method comprises: upon receiving a mount directory sent by a terminal device by means of a distributed bus, synchronizing the mount directory of the terminal device to the virtual machine by means of the cloud computer terminal; the virtual machine creating a network disk mapping on the basis of the mount directory; and performing data interaction with the terminal device on the basis of the network disk mapping.
Provided in the present disclosure is a mouse control method, which is applied to a cloud computer terminal device, wherein the cloud computer terminal device comprises a first display screen. The method comprises: determining the movement condition of a mouse cursor of the cloud computer terminal device between the first display screen and a second display screen of a handwriting display device, wherein the handwriting display device has been redirected to a cloud computer desktop by a cloud computer server corresponding to the cloud computer terminal device; and on the basis of the movement condition of the mouse cursor between the first display screen and the second display screen, switching a mouse of the cloud computer terminal device between a client mouse mode and a server mouse mode. Further provided in the present disclosure are a mouse control method applied to a cloud computer server, and a cloud computer terminal device, a cloud computer server, a computer-readable storage medium and a computer program product.
The embodiments of the present application relate to the technical field of electronic products. Disclosed are a heat dissipation system and a foldable electronic product. The heat dissipation system comprises a plurality of heat dissipation channels, wherein at least two of the plurality of heat dissipation channels are relatively movably arranged, and are respectively arranged on two folding bodies of the foldable electronic product, so as to move with the two folding bodies, such that the plurality of heat dissipation channels have a connected position and a disconnected position; in the connected position, the plurality of heat dissipation channels are connected to each other; and in the disconnected position, at least some of the heat dissipation channels are disconnected from each other.
The present application provides a beam hopping control method, an electronic device, a storage medium, and a program product. The method comprises: a satellite payload receives a transparent forwarding signal transmitted by a base station and corresponding beam control information, wherein the beam control information is transmitted earlier than the transparent forwarding signal, and the beam control information is used for performing beam hopping control by the satellite payload; and the satellite payload determines an effective moment of the beam control information on the basis of the transparent forwarding signal and a local frame header moment of the satellite payload, wherein the effective moment of the beam control information is synchronized with the transparent forwarding signal.
Embodiments of the present application provide a data transmission method, a communication device, and a computer-readable storage medium. The method comprises: transmitting preemptive data and non-preemptive data by means of the same TID queue, wherein the preemptive data comprises instruction information, and the instruction information is used for instructing a receiving end to perform corresponding processing on the preemptive data (S301).
The present application provides an optical fiber amplifier, comprising: a gain optical path, configured to amplify signal light; a first filter, configured to filter backward spontaneous emission light generated by the amplification of the signal light by the gain optical path, and retain auxiliary light that meets a preset requirement; and a coupler, configured to combine the auxiliary light with new signal light to be amplified by the gain optical path, so as to enhance population inversion generated when the combined new signal light is amplified by the gain optical path.
Embodiments of the present disclosure provide a state information acquisition method and device, a storage medium, and an electronic device. The method comprises: determining an area where a target object is located; on the basis of said area, adjusting an enable state of a first timeslot symbol corresponding to a continuous wave in a timeslot signal and an enable state of a second timeslot symbol corresponding to a pulse wave in the timeslot signal, so as to acquire an adjusted timeslot signal; and acquiring state information of the target object on the basis of the adjusted timeslot signal.
Embodiments of the present description provide a communication method, a network device, and a board. The method is applied to a network device, the network device comprises at least two boards, the at least two boards are each internally provided with a packet forwarding chip, a data channel and a control channel are provided in the packet forwarding chip, and the data channel and the control channel are isolated from each other during forwarding. The method comprises: a packet forwarding chip forwards a first packet by means of a data channel, the first packet comprising at least one of a service data packet, a protocol packet, and a management packet; and the packet forwarding chip forwards a second packet by means of a control channel, the second packet comprising at least one of an inter-board communication packet, a protocol packet, and a management packet.
The present application belongs to the technical field of communications. Disclosed are beam scanning methods, a network device, a terminal, a medium and a program product. A method is applied to a network device, and comprises: acquiring at least one spatial grid within a network coverage area and, on the basis of a service objective, determining the slot offset of the at least one spatial grid; sending the slot offset of the at least one spatial grid to a target terminal corresponding to the spatial grid; and determining within a preset period a relative air interface time of the at least one spatial grid on the basis of an absolute air interface time and the slot offset and, at the relative air interface time, performing beam scanning on an SSB corresponding to the at least one spatial grid.
The present application belongs to the technical field of communications. Disclosed are a data transmission method, and a device, a medium and a product. The data transmission method comprises: acquiring ground node registration information, satellite network information, and geographical location information of a second ground node; on the basis of the ground node registration information, the satellite network information and the geographical location information of the second ground node, determining at least one service satellite and a first encapsulation address; and on the basis of the first encapsulation address, performing encapsulation on a data packet to be forwarded, and sending to the at least one service satellite said data packet including the first encapsulation address, such that the at least one service satellite transmits said data packet to the second ground node on the basis of the first encapsulation address.
Provided in the present disclosure is a communication method, applied to UDM, the UDM being deployed in a satellite. The method comprises: receiving a first request sent by a network element device; on the basis of the first request, locally querying user subscription information of a target terminal, the target terminal being a terminal requesting access to a control plane network element; when no user subscription information is found, receiving user subscription information sent by target UDM corresponding to the target terminal; and storing the user subscription information locally and sending same to the network element device. The present disclosure further provides UDM, a computer-readable medium, and a computer program product.
Embodiments of the present application relate to the technical field of optical communications, and disclose a switching control apparatus and method, a network node, and a computer-readable storage medium. The switching control apparatus comprises: a dummy light input port, a signal light input port, a switching module, and a control module. The signal light input port is internally provided with an optical channel monitoring unit; an input end of the dummy light input port is configured to access dummy light, an input end of the signal light input port is configured to access signal light, the switching module is respectively connected to an output end of the dummy light input port and an output end of the signal light input port, and the control module is respectively connected to the optical channel monitoring unit and the switching module; and the control module is configured to acquire a monitoring result from the optical channel monitoring unit and control, on the basis of the monitoring result, the switching module to switch an input optical channel.
H04B 10/079 - Arrangements for monitoring or testing transmission systemsArrangements for fault measurement of transmission systems using an in-service signal using measurements of the data signal
24.
DATA TRANSMISSION METHOD, AND APPARATUS, STORAGE MEDIUM AND PROGRAM PRODUCT
Provided in the embodiments of the present disclosure are a data transmission method, and an apparatus, a storage medium and a program product. The method comprises: a sending end acquiring a first data sequence to be transmitted; processing said first data sequence to obtain a second data sequence, wherein the processing comprises at least one of encoding processing, repetition processing and frequency hopping processing; and transmitting the second data sequence.
Provided in the embodiments of the present disclosure are an autostereoscopic three-dimensional display apparatus and display method, and a terminal device. The autostereoscopic three-dimensional display apparatus comprises: a screen, wherein a pixel unit of the screen comprises sub-pixels in a row direction and sub-pixels in a column direction, each sub-pixel comprises three primary colors, the arrangement order of the three primary colors differs from row to row and from column to column, and the arrangement order of the three primary colors in one row is the same as that in a corresponding column; and a dual-layer liquid crystal lens, which comprises a first liquid crystal lens and a second liquid crystal lens that are stacked, wherein the operating state of the first liquid crystal lens and/or the second liquid crystal lens is switched on the basis of whether the screen is in a landscape state or a portrait state, such that the autostereoscopic three-dimensional display apparatus displays a three-dimensional image in either the landscape state or the portrait state.
H04N 13/305 - Image reproducers for viewing without the aid of special glasses, i.e. using autostereoscopic displays using lenticular lenses, e.g. arrangements of cylindrical lenses
26.
AUDIO AND VIDEO CALL AND MESSAGE PROCESSING METHODS AND SYSTEM
Provided in the embodiments of the present disclosure are audio and video call and message processing methods and system, a method comprising: during the process of an audio and video call between a first user terminal and a second user terminal, acquiring an uplink message triggered by the first user terminal or the second user terminal; and forwarding the uplink message to a message platform, the uplink message being used for instructing the message platform to send a corresponding downlink message to the first user terminal and/or the second user terminal. The present disclosure solves the problems in the prior art of poor timeliness of new calling media content, limited media resources and extremely low user usage rate of 5G messaging. Integrating new calling with 5G messaging and providing corresponding downlink messages to user terminals improve the media richness and media real-time performance of new calling, and also improve the user usage rate of 5G messaging.
Provided in the embodiments of the present disclosure are a plug-in loading method and a plug-in management method. The plug-in loading method comprises: acquiring a plug-in information list from a plug-in management center, the plug-in information list being used for recording plug-in information of deployed plug-ins of the plug-in management center; and loading a target plug-in according to the plug-in information list.
The present application relates to the field of communications, and discloses a service type identification method, an electronic device, and a storage medium. The method comprises: acquiring a target identifier of a packet to be identified; when the target identifier matches a historical identifier in a historical context, searching for a historical service type corresponding to the historical identifier in the historical context, the historical service type being obtained by identifying a historical packet; and outputting the historical service type as a service type of the packet to be identified.
The present application belongs to the technical field of communications. Disclosed are communication methods, communication devices, and a computer-readable medium. A communication method of the embodiments of the present application comprises: a network control unit communicates with at least one of an access network device and a terminal by means of a specific service, wherein a plurality of network services independent of each other are deployed in the network control unit, and the specific service is any one of the plurality of network services.
The present application relates to the technical field of communications, and discloses a traffic detection method, an electronic device, and a computer-readable storage medium. The method comprises: a first node acquiring a target SRv6 policy and information of a next-hop node, the next-hop node being a mandatory next-hop node of the first node in the target SRv6 policy; determining a first traffic detection path between the first node and the next-hop node according to the target SRv6 policy and the next-hop node; sending a first traffic detection packet to the next-hop node by means of the first traffic detection path, the first traffic detection packet carrying data traffic information of the first node, the first traffic detection packet being configured for detecting data traffic information of each second node on the first traffic detection path with respect to the target SRv6 policy, the second nodes being loose nodes not defined in the target SRv6 policy, and the first node being a mandatory node defined in the target SRv6 policy.
The present disclosure provides a data transmission method, applied to an optical network unit (ONU). The method comprises: using Ethernet encapsulation technology to encapsulate an optical service unit (OSU) packet into an OSU over Ethernet (OOE) packet; and sending the OOE packet to a first port of Ethernet so that the Ethernet switches the OOE packet in an Ethernet switching manner and transmits the OOE packet to a second port of the Ethernet, and processing the OOE packet by means of the second port and then uploading the OOE packet to an optical transport network (OTN). The present disclosure further provides a data transmission method applied to an optical line terminal (OLT), an electronic device, a computer-readable storage medium, and a computer program product.
H04L 69/08 - Protocols for interworkingProtocol conversion
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
32.
CDN CACHE CONTENT REFRESHING METHODS, CACHE SERVER, PROCESSING UNIT, COMPUTER-READABLE MEDIUM, AND COMPUTER PROGRAM PRODUCT
Provided in the present disclosure is a CDN cache content refreshing method, which is based on a cache server. The method comprises: acquiring a target object, and determining a content refresh rule wall on the basis of the target object, wherein the target object is determined by a processing unit on the basis of a content refresh rule carried in a content refresh request; receiving a media content service request, which is from a target terminal, wherein the media content service request comprises a URL of media content; determining whether the URL matches the content refresh rule wall; and in response to the URL successfully matching the content refresh rule wall, acquiring a latest copy of the media content from a source station, and sending the latest copy to the target terminal. Further provided in the present disclosure are a CDN cache content refreshing method, a cache server, a processing unit, a computer-readable medium and a computer program product.
Provided in the embodiments of the present disclosure are a chip interconnection processing method, and a chip. The method comprises: providing at least two controllers inside each chip among some or all of a plurality of chips, wherein the at least two controllers are connected to an internal bus; and by means of the at least two controllers of each chip among some or all of the chips, interconnecting the plurality of chips on the basis of a peripheral component interconnect express (PCIe) bus.
Provided in the embodiments of the present disclosure is a processing method based on sensing-assisted communication. The method comprises: receiving detection information of a moving target sensed by a sensing cell; and on the basis of the detection information, performing beam adjustment and/or frequency offset pre-compensation. The method can solve the problems in the relevant art of access/handover latency being relatively long and an access/handover success rate being relatively low since it is impossible to perform frequency offset compensation in a timely manner on a user moving at a high speed, and control not being accurate enough since the number of beams and the coverage range are fixed.
The present disclosure provides a robot communication method, which is applied to a first robot, and comprises: in a case where the first robot is capable of performing near-field communication with a second robot, acquiring second identity information of the second robot, and determining an identity of the second robot according to the second identity information; and upon determining that the second robot is a target robot of a target task and receiving a successful identity authentication notification message sent by the second robot, executing the target task. The present disclosure further provides a robot device and a computer-readable storage medium.
A control method for an airborne radio frequency module, a method for sending a site map, and a device. The control method comprises: receiving a site map sent by a ground management server (S201), wherein the site map comprises interference-associated information of a target network-side device, the target network-side device is a network-side device at the location of an airborne communication device, and the interference-associated information is associated with interference generated by the airborne communication device on the target network-side device; and on the basis of the interference-associated information, controlling an airborne radio frequency module, so as to suppress the airborne radio frequency module from generating interference on the target network-side device (S202).
The present application provides a data processing method, a communication node, a storage medium, and a program product. The data processing method is applied to a first communication node and comprises: acquiring a bit sequence to be encoded; on the basis of encoding requirement information of said bit sequence and support information of base matrices in a base matrix set, determining a target base matrix from the base matrix set; and encoding said bit sequence by means of the target base matrix to determine a target encoded bit sequence, wherein the base matrix set at least comprises two base matrices.
Provided in the present application are a measurement result processing method, a communication node, a storage medium and a program product. The method is applied to a first communication node, and comprises: sending processing mode instruction information of a measurement result of a reference signal, wherein the processing mode instruction information is used for instructing a processing mode used by a second communication node for the measurement result of the reference signal. By means of the processing mode instruction information, the first communication node instructs the second communication node to process the measurement result and to use what mode for processing, and on the basis of the processing mode instruction information, the second communication node determines a processing mode for the measurement result, so as to perform corresponding processing on the measurement result.
Embodiments of the present disclosure provide a communication parameter adjustment method, a communication apparatus, and a storage medium. The communication parameter adjustment method is applied to a first node, and comprises: receiving first information sent by a second node, the first information being used for instructing to adjust a parameter value of a communication parameter; and adjusting the communication parameter from a first parameter value to a second parameter value.
The present application discloses a heat dissipation control method for a terminal device. The terminal device comprises at least one heat dissipation function module. The method comprises: receiving a starting instruction; in response to the starting instruction, acquiring at least one heat dissipation parameter threshold set of the terminal device and current operation information of the terminal device; and on the basis of the at least one heat dissipation parameter threshold set of the terminal device and the current operation information of the terminal device, controlling the at least one heat dissipation function module to work. The present application further discloses a terminal device and a storage medium.
The present application provides a data transmission method, a communication device, and a storage medium. The data transmission method comprises: performing an interpolation operation on a first data sequence, so as to obtain a second data sequence (S110); performing a filtering operation on the second data sequence, so as to generate a time-domain signal (S120); and transmitting the time-domain signal, wherein the half-power bandwidth of a frequency-domain filtering function of the filtering operation is equal to 1/(N+1) times the sampling rate of the second data sequence, N being the number of pieces of data interpolated between every two adjacent elements in the first data sequence (S130).
Provided in the embodiments of the present application are a method for sending a message in heterogeneous rate link networking, and an electronic device. The method comprises: determining a mapping relationship between the number of upstream egress time slots and the number of downstream egress time slots of a first message; when the mapping relationship is X-to-1, adding extension information to the first message, wherein the extension information is used for determining an egress queue of the first message; when the mapping relationship is 1-to-Y, on the basis of the extension information carried in the first message or a local policy, determining the egress queue of the first message, wherein X and Y are integers greater than 1; and adding the first message to an egress queue of the downstream egress time slots.
Embodiments of the present disclosure provide a service processing method, a storage medium, and an electronic apparatus. The method comprises: receiving a service request message, the service request message carrying a user identifier; by means of a user routing function (URF) component, determining user data routing information corresponding to the user identifier; and, on the basis of the user data routing information and by means of a pre-established internal data channel, sending a service request message to an existing HLR/HSS for processing or a second converged UDM/HSS for processing, the second converged UDM/HSS being one or more converged UDM/HSSs. The problem in the related art of low service processing performance after multiple sets of HLR/HSSs and UDM/HSSs are converged can be solved.
Provided in the embodiments of the present disclosure are a knowledge graph construction method, a storage medium, an electronic device and a computer program product. The method comprises: acquiring text to be processed and a plurality of schema extraction tasks of different entity types; on the basis of the plurality of schema extraction tasks, extracting a plurality of pieces of entity schema information from said text; converting the plurality of pieces of entity schema information into a plurality of triples; and constructing a knowledge graph on the basis of the plurality of triples.
Provided in the present disclosure is a task processing method, which is executed by a server comprising a plurality of agents. The method comprises: in response to a task processing request of a target agent, acquiring the task type of a target task; on the basis of the task type of the target task, screening a plurality of preset tools, so as to determine at least two target tools; and the target agent calling the at least two target tools to process the target task, so as to obtain a task processing result. Further provided in the present disclosure are a server, a computer-readable storage medium and a computer program product.
Provided in the embodiments of the present disclosure are communication sensing methods, an electronic device, a storage medium and a program product. A communication sensing method is applied to a first node, which moves along a preset trajectory. The communication sensing method comprises: during the process of moving along a preset trajectory, transmitting a sensing reference signal to a sensing target multiple times.
The present application relates to the field of computers, and discloses a log processing method, an electronic device, and a computer-readable storage medium. The method comprises: a target device acquires log records of a target session; in the case where the target session ends abnormally, the target device determines all log records of the target session as target log records; in the case where the target session ends normally, the target device acquires some log records from among all the log records of the target session as the target log records; and the target device stores the target log records.
The present application relates to the technical field of mechanical functional keys. Disclosed are a combination key and a mobile terminal. The combination key comprises: a base; a pressing key module arranged on the base; and a shifting key module, wherein the pressing key module and the shifting key module are stacked on the base in a pressing direction, the shifting key module is slidably arranged on the base in a shifting direction, and the shifting key module is arranged in the pressing direction in a floating manner so as to press the pressing key module.
Provided in the embodiments of the present disclosure are a virtual peripheral channel connection method and apparatus. The method comprises: determining a target cloud desktop system from a plurality of cloud desktop systems on the basis of a detection task; and connecting a virtual peripheral channel to the target cloud desktop system.
Disclosed in the present application are multi-end interaction methods, an electronic device, and a computer-readable storage medium. The present application relates to the technical field of communications. A control end is in communication connection with a remote end. After triggering an interaction task with the remote end, the control end will further determine an interaction scenario of the interaction task and, when the type of the interaction scenario is data processing result interaction, generate, on the basis of the interaction task, an interaction instruction for controlling the remote end to process local data, and receive a processing result obtained by processing the local data on the basis of the interaction instruction.
The present application relates to the technical field of communications. Disclosed are a service scheduling method, an electronic device and a storage medium. The method comprises: splitting a target service into a plurality of microservices; on the basis of preset conditions, determining a computing-network infrastructure corresponding to each microservice and forwarding paths between the computing-network infrastructures, wherein the preset conditions comprise, but are not limited to, a scheduling policy for the target service, scheduling constraints of the plurality of microservices, information of the computing-network infrastructure, and a network infrastructure capability; on the basis of the computing-network infrastructure corresponding to each microservice and the forwarding paths between the computing-network infrastructures, generating an application service chain routing entry, the application service chain routing entry comprising a mapping relationship between a microservice chain and each microservice, the microservice chain comprising the plurality of microservices, and the microservice chain being used for providing the target service; and issuing the application service chain routing entry to the computing-network infrastructures, so that the computing-network infrastructures schedule the service traffic of the plurality of microservices on the basis of the application service chain routing entry.
The present application discloses a message processing method, a server, and a storage medium. The message processing method comprises: acquiring a message to be sent, wherein the message to be sent is a message to be sent to a user device; and upon determining that a virtual broadband remote access server user plane (vBRAS-UP) device is an isolated device and a message type of the message to be sent is a proactive message type, suppressing the sending of the message to be sent to the user device.
A hybrid energy scheduling method, an electronic device, and a computer program product. The method comprises: acquiring a new energy generation power hyperparameter and an electrical load power hyperparameter; respectively dividing a new energy generation power prediction layer and an electrical load power prediction layer into L-dimensional clustering subspaces, and respectively performing iterative clustering on the basis of the new energy generation power hyperparameter and the electrical load power hyperparameter to acquire a new energy generation power sequence set and an electrical load power sequence set which both have a sequence length of L; acquiring a joint probability scenario set on the basis of the new energy generation power sequence set and the electrical load power sequence set; and optimally solving a preset electricity consumption indicator on the basis of the joint probability scenario set, so as to acquire a scheduling strategy for hybrid energy scheduling.
Embodiments of the present disclosure provide a cell handover method. The method comprises: constructing a signal quality map for each cell on the basis of historical feature data, wherein the historical feature data comprises uplink wireless channel quality information and uplink wireless channel resource information; on the basis of feature data of a user under handover and the signal quality maps, determining quality information of said user in a home cell and neighboring cells; and in response to said user having valid quality information in the home cell, on the basis of the quality information in the neighboring cells, selecting a target handover cell from among the neighboring cells for handover.
Embodiments of the present disclosure provide an antenna weight value determination method and apparatus, a storage medium, and a computer program product. The antenna weight value determination method comprises: acquiring measurement information of cell-defining synchronization signal blocks (CD SSBs) for multiple terminals in a region to be optimized, said region comprising at least one cell; converting the measurement information of a CD SSB for each terminal among the multiple terminals into measurement information of a non cell-defining synchronization signal block (NCD SSB) for the corresponding terminal; and on the basis of the measurement information of the NCD SSB for each terminal among the multiple terminals, determining a target antenna weight value for a NCD SSB of each cell in said region.
Provided are a congestion signaling processing method, a congestion signaling configuration method, a forwarding device, a control device, and a readable storage medium. The method comprises: a forwarding device receives a service packet; the forwarding device acquires congestion signaling configuration information matching the service packet, the congestion signaling configuration information being used for indicating a configuration parameter for processing congestion signaling; and the forwarding device performs corresponding congestion signaling processing on the service packet on the basis of the congestion signaling configuration information.
Disclosed in the embodiments of the present application are a signal processing method for a passive optical network, and an optical line terminal and an optical network unit. The signal processing method for a passive optical network comprises: on the basis of a registration interaction message between an optical line terminal and an optical network unit, determining a first distance parameter of the optical line terminal, wherein the first distance parameter comprises at least one of the following: the average distance, pre-ranging distance and ranging distance between the optical line terminal and the optical network unit; and on the basis of the first distance parameter, performing digital signal processing on a signal between the optical line terminal and the optical network unit.
The present application provides a data transmission method, a communication device, and a storage medium. The data transmission method as applied to a first communication device comprises: determining an RE group corresponding to a PUSCH used for carrying uplink control information; and transmitting the PUSCH in the RE group.
The present application provides a phased array antenna unit, a phased array antenna system, and a satellite platform. The phased array antenna unit comprises: an antenna array, a heat dissipation housing, and a signal processing component. The antenna array comprises a plurality of antenna elements arranged in an array, and is disposed on a first side surface of the heat dissipation housing, the first side surface of the heat dissipation housing being a reflection plane of the antenna array. The signal processing component is disposed on a second side surface of the heat dissipation housing that faces away from the first side surface, the heat dissipation housing being used for dissipating heat for the signal processing component.
Provided in the embodiments of the present disclosure is a method for adjusting the gain of a Raman amplifier. The method comprises: on the basis of a first preset adjustment target, adjusting a DRA-P pumping configuration (S202); on the basis of an amplifier performance parameter of a receiving end and a second preset adjustment target for the OSNR of the receiving end, determining a third preset adjustment target at a preset virtual midpoint position (S204); on the basis of the third preset adjustment target, adjusting a transmitting end configuration of a transmitting end (S206); and measuring an actual OSNR of the receiving end, and when the actual OSNR does not meet the second preset adjustment target, performing cyclical fine tuning on the DRA-P pumping configuration and/or the transmitting end configuration until the actual OSNR meets the second preset adjustment target (S208).
The present application provides a communication method, a device discovery method, a communication node, a storage medium, and a program product. The communication method comprises: a first communication node sending first request information to a second communication node, the first request information being used for instructing the second communication node to execute a corresponding command, the first request information comprising at least one device identifier and invisible data corresponding to each device identifier, and the invisible data being data invisible to the first communication node.
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
H04W 12/03 - Protecting confidentiality, e.g. by encryption
Provided in the embodiments of the present disclosure is a resource configuration method based on a carrier aggregation service, the method comprising: determining the configuration state of a secondary carrier of a user equipment, and acquiring current state information of a cell and resource configuration information of the current carrier; and on the basis of the current state information of the cell and the resource configuration information of the current carrier, reconfiguring a carrier resource when the secondary carrier is activated.
Embodiments of the present application provide a packet generation method, a multicast packet transmission method, a network device, a computer readable storage medium, and a computer program product. The packet generation method is applied to a multicast network. The method comprises: adding at least one piece of the following information into a protocol independent multicast (PIM) join packet: network slice information; and network topology information.
A method for grouping end stations in a satellite system, a controller, a satellite system, and a computer storage medium are disclosed. The method may include: acquiring a control information parameter of each of a plurality of end stations, where the control information parameter includes a control information reporting probability; obtaining a metric value of each of the plurality of end stations according to the control information parameter; obtaining an upper limit metric value according to the metric values of the plurality of end stations and a preset group number N; and grouping the plurality of end stations according to a preset grouping principle and the upper limit metric value to obtain N end station groups.
Provided are a balanced wireless sensing method, a communication node, and a storage medium. The balanced wireless sensing method includes determining a delay-Doppler spectrum of a received signal in the current sensing period; jointly partitioning the delay range and the angle range of the sensed received signal, where a joint partition includes a delay partition and an angle partition; and determining an angle traversal step size corresponding to each delay partition and a preset number of sensed objects in each joint partition; for each joint partition, sensing information about at most the preset number of sensed objects in the joint partition according to the delay-Doppler spectrum and the angle traversal step size of the joint partition; determining a trajectory within a sensing range according to information sensed in multiple sensing periods; and determining a moving object according to the trajectory.
G01S 13/58 - Velocity or trajectory determination systemsSense-of-movement determination systems
G01S 5/02 - Position-fixing by co-ordinating two or more direction or position-line determinationsPosition-fixing by co-ordinating two or more distance determinations using radio waves
G01S 11/10 - Systems for determining distance or velocity not using reflection or reradiation using radio waves using Doppler effect
G01S 13/42 - Simultaneous measurement of distance and other coordinates
A collaborative verification method, a collaborative authentication method, an operator device, an enterprise device, a terminal device, a relay device, and a storage medium are disclosed. The collaborative verification method may include: establishing a first trust collaboration relationship with a second trust domain; and acquiring an access request sent by a terminal device, and performing access verification on the terminal device according to the first trust collaboration relationship and the access request, such that related information verification of the second trust domain is implemented in the first trust domain.
Methods and systems for techniques for techniques for preventing or reducing failures at a central unit of a base station are disclosed. In an implementation, a method of wireless communication includes receiving, by a first network element, from a user equipment, a signaling connection setup complete message that indicates a connection establishment for a signaling message between the user equipment and a network device associated with the first network element, determining, by the first network element, whether a network slice corresponding to the signaling connection setup complete message is supported by a second network element, and transmitting, by the first network element, the signaling message and information regarding the network slice to a third network element upon determination that the network slice corresponding to the signaling connection setup complete message is not supported by the second network element.
The present disclosure describes methods, systems and devices for switching cross-carrier scheduling primary cell for a user equipment (UE), wherein a secondary cell is configured to schedule the primary cell. One method includes receiving, by the UE, a downlink control information (DCI) via a physical downlink control channel (PDCCH) from a network base station, the DCI used to switch the cross-carrier scheduling primary cell. Another method includes receiving, by the UE, a medium access control (MAC) control element (CE) from a network base station, the MAC CE used to switch the cross-carrier scheduling primary cell. Another method includes performing switching off cross-carrier scheduling primary cell by a secondary cell for a UE, and restoring, by the UE, a factor in the primary cell for scheduling the primary cell, and/or restoring, by the UE, a non-fallback downlink control information (DCI) in the primary cell for scheduling the primary cell.
H04W 72/1263 - Mapping of traffic onto schedule, e.g. scheduled allocation or multiplexing of flows
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
69.
Information push method and device for dormant card, and storage medium
Provided are an information push method and device for a dormant card, and a storage medium. The method includes: acquiring a startup time of the dormant card and a shutdown time which is closest to the startup time in the case of detecting a startup flag of a terminal with the dormant card; calculating a difference between the startup time and the shutdown time as a dormant duration; and pushing corresponding discount information to the terminal with the dormant card in the case of the dormant duration reaching a preset time threshold.
G06Q 30/0207 - Discounts or incentives, e.g. coupons or rebates
H04W 8/02 - Processing of mobility data, e.g. registration information at HLR [Home Location Register] or VLR [Visitor Location Register]Transfer of mobility data, e.g. between HLR, VLR or external networks
H04W 8/18 - Processing of user or subscriber data, e.g. subscribed services, user preferences or user profilesTransfer of user or subscriber data
70.
Data Transmission Method and Device, User Equipment, Base Station, Communication System and Storage Medium
Provided are a data transmission method and apparatus, a user equipment, a base station, a communication system and a storage medium. The method includes abiding by a mapping relationship between the resource configuration of a physical uplink shared channel (PUSCH) resource and preamble sequence configuration information according to the resource configuration of the PUSCH resource and determining preamble sequence configuration information corresponding to the resource configuration of the PUSCH resource; mapping a preamble sequence onto a physical random access channel (PRACH) resource according to the preamble sequence configuration information; and sending a message containing the PRACH resource and the PUSCH resource.
This disclosure relates generally to a method, device, and system for efficiently coordinating resources among different entities in a wireless network. A service data unit (SDU) is received. The SDU is divided into a plurality of segments. The plurality of segments are transmitted to a receiving device. An acknowledgement of successful transmission of one or more of the plurality of segments is transmitted.
Techniques are described for low peak to average power ratio (PAPR) sequence based signal. An example wireless communication method includes generating, by a wireless device, a base sequence according a root index, where the root index has a value from a plurality of values, and where the value of the root index is selected or generated by one of at least two methods; generating a low peak to average power ratio (PAPR) sequence using the base sequence; generating a low PAPR signal using the low PAPR sequence; and transmitting the low PAPR signal.
Techniques are described for interference cancellation of sensing signals. An example wireless communication method includes transmitting, by a second network device to a first network device, a request that triggers the first network device to send transmission characteristics of a sensing signal to be transmitted by the first network device; and receiving, by the second network device from the first network device, configuration information for the sensing signal in response to the request, where the configuration information includes one or more resource positions and one or more parameters of the sensing signal.
The present application belongs to the technical field of communications. Disclosed are a computing power scheduling method, and a device and a medium. The computing power scheduling method comprises: in response to a computing power request message having been received, on the basis of a flow computing power forwarding table corresponding to the computing power request message, determining a network path and a service instance identifier which correspond to the computing power request message; and on the basis of the network path and the service instance identifier, forwarding the computing power request message to a corresponding computing instance.
The present disclosure provides a channel state information report sending method and channel state information report receiving method, a communication apparatus, and a storage medium. The channel state information report sending method comprises: acquiring N pieces of first channel state information, and acquiring K pieces of first channel state information from among the N pieces of first channel state information; generating a channel state information report on the basis of the K pieces of first channel state information; and sending the channel state information report, N and K being positive integers, and K being less than or equal to N.
Provided is a method for enhancing the security of a time-of-day (TOD) message. The method is applied to a first time synchronization node. The method comprises: receiving a first TOD message, and acquiring preset authentication information and integrity verification information; adding the authentication information and the integrity verification information into the first TOD message, so as to generate a second TOD message; and sending the second TOD message to a second time synchronization node.
The present application provides an intelligence-endogenous network system and a service processing method. The system comprises a network entity and a management and orchestration entity. The network entity is configured to implement a service function of a network device. The management and orchestration entity is configured to implement resource and service orchestration of the network device. The network entity comprises an application layer, a functional layer, an enable layer, and a resource layer. The application layer comprises an artificial intelligence (AI) application, and the functional layer comprises a network service domain and a support domain. The network service domain provides multi-domain service functions for the AI application in a capability exposure manner, and the support domain provides intelligence, computing and data support functions for the network service domain and the AI application in a capability exposure manner. The enable layer comprises a service component that supports network deployment and operation, and the resource layer comprises resources that can be orchestrated and used in the network device.
The present application provides a service control system and method, an electronic device, a storage medium, and a program product. The service control system comprises a service orchestration module and a service control module. The service orchestration module is used for orchestrating artificial intelligence (AI) service requests and sending an orchestration result to the service control module, the orchestration result comprising an AI workflow, an execution result that needs to be achieved by the AI workflow, a plurality of AI tasks, and an execution result that needs to be achieved by each AI task. The service control module is used for executing the plurality of AI tasks, and, on the basis of actual execution results of the plurality of AI tasks, the execution result that needs to be achieved by the AI workflow, and the execution result that needs to be achieved by each AI task, adjusting an execution policy of the AI workflow and an execution policy of each AI task.
Provided in the present application are radio-frequency control timing and a method for generating radio-frequency control timing. The cycle of the radio-frequency control timing is equal to the cycle of a frame structure used for radio-frequency transmission. In each cycle, the radio-frequency control timing comprises sensing timing and communication timing. Within each cycle, for each sensing timing segment, with reference to an air interface frame header, the entry position of the sensing timing precedes a sensing symbol, the exit position of the sensing timing follows the sensing symbol, the duration of the sensing timing is equal to the duration of a sensing time slot, and at a junction of the sensing timing and the communication timing, the sensing timing and the communication timing have the same timing state.
Embodiments of the present application provide a knowledge data acquisition method, a knowledge base construction method, and an electronic device. The knowledge data acquisition method comprises: receiving a target request; acquiring, from a target knowledge plug-in package, knowledge data corresponding to the target request; and feeding back the knowledge data, wherein the target knowledge plug-in package comprises an atomic granularity knowledge plug-in package for knowledge data acquisition, and the atomic granularity knowledge plug-in package comprises a plug-in identifier, knowledge directory information, and knowledge content.
A device control method, an electronic device, a storage medium, and a program product. The device control method is applied to a wearable device, the wearable device comprising multiple haptic feedback structures, the haptic feedback structures being used to provide haptic feedback to a user wearing the wearable device. The method comprises: after a wearable device is connected to an electronic device, acquiring an instruction for the wearable device from the electronic device; on the basis of the instruction, controlling working states of the multiple haptic feedback structures.
This disclosure relates generally to a method, device, and system for registering and authenticating a UE in a wireless network with satellites deployed. One method performed by a first wireless node may include receiving, from a first wireless device, a first message for registering with a core network, the first message carrying a first identifier of the first wireless device, the first identifier belonging to a first type; transmitting, to the first wireless device, a second message to request a second identifier of the first wireless device, the second message carrying an indicator indicating a type of the second identifier, wherein the second identifier belonging to a second type which is different from the first type; and receiving, from the first wireless device, the second identifier.
Disclosed in the present application are a modulation method and apparatus, and an electronic device, a medium and a product. The method comprises: acquiring a first data sequence, wherein the first data sequence comprises a first element and a second element; performing first processing on the first data sequence to obtain a second data sequence, wherein the first processing comprises respectively replacing the first element and the second element in the first data sequence with first preset sequences in a first preset sequence set, and adding a second preset sequence in a second preset sequence set between adjacent first preset sequences in the replaced first data sequence; and modulating the second data sequence to obtain a third data sequence.
The present application discloses a modulation method, a modulation apparatus, an electronic device, a storage medium, and a product. The method comprises: acquiring a first data sequence, the first data sequence comprising a first element and a second element; performing first processing on the first data sequence to obtain a second data sequence, the first processing comprising respectively converting the first element and the second element in the first data sequence into first preset sequences in a first preset sequence set, and adding, between adjacent first preset sequences in the converted first data sequence, the first preset sequences in the first preset sequence set; and modulating the second data sequence to obtain a third data sequence.
The present application relates to the technical field of wireless communications, and discloses a numerology determination method, a numerology configuration method, a storage medium, and a communication device. The numerology determination method comprises: a terminal receives numerology configuration information sent by a network side device, wherein a first time unit comprises a plurality of second time units, the numerology configuration information is used for indicating a numerology configuration of each of the second time units in one first time unit, and the numerology configurations of the plurality of second time units in the first time unit are not completely the same; and the terminal determines a numerology or a numerology pattern of each second time unit on the basis of the numerology configuration information, wherein the numerology comprises at least one of a subcarrier spacing, a cyclic prefix type, a cyclic prefix length, and a cyclic prefix overhead.
The present application belongs to the technical field of communications. Disclosed are a data transmission method, a communication device and a readable storage medium. The method comprises: acquiring M/2 data bits b(k) to be sent, wherein k=0, 1, 2,..., M/2-1, and M is a positive integer; modulating the M/2 data bits b(k) into N complex modulation symbols d(i), wherein each complex modulation symbol d(i) is formed by means of a data bit (I) and a data bit (II), i=0, 1, 2,..., N-1, and N=M, or N=M-1; and transmitting the N complex modulation symbols d(i).
The present application relates to the technical field of communications. Disclosed are a data transmission method, a communication device, and a readable storage medium. The method comprises: acquiring M/2 data bits b(k) to be sent, wherein k = 0, 1, 2,..., M/2-1, M being a positive integer; on the basis of the M/2 data bits b(k), acquiring N complex modulation symbols d(i), i = 0, 1, 2,..., N-1, and N = M, or N = M-1, wherein when i = 2k, d(i) is formed by the data bit b(k), and when i = 2k +1, d(i) is formed by the data bit b(k) and the data bit b(k+1); and transmitting the N complex modulation symbols d(i).
The present application relates to the technical field of wireless communications, and discloses a UCI transmission method, a UCI reception method, a communication device, a storage medium, and a computer program product. The UCI reception method comprises: a base station transmitting downlink control information (DCI) in a DCI format for scheduling a physical downlink shared channel (PDSCH), wherein the DCI triggers a target PUSCH; and the base station receiving the target PUSCH from a target slot, wherein a HARQ-ACK triggered by the DCI is carried on the target PUSCH.
The present application belongs to the technical field of wireless communications. Disclosed are uplink control channel resource configuration and determination methods, a communication device and a storage medium. The uplink control information (UCI) resource configuration method comprises: a base station sending configuration information to a terminal, wherein the configuration information is used for configuring at least one physical uplink shared channel (PUSCH) resource set used for UCI, each PUSCH resource set comprises at least one PUSCH resource, and the PUSCH resource in the PUSCH resource set is used for bearing the UCI.
The present disclosure relates to the technical field of communications, and provides a communication method and apparatus, a storage medium, and a program product, for use in reducing the feedback overhead of codeword indication information. The method comprises: acquiring channel state information; on the basis of the channel state information, acquiring at least one target basic vector from a first basic vector set, wherein the first basic vector set comprises basic vectors that meet a preset constraint condition, the preset constraint condition is used for constraining indication information of the basic vectors, the at least one target basic vector is used for constructing a codeword used for channel information feedback, and indication information of each element in the first basic vector set is determined in a linear indexing manner; and feeding back indication information of the at least one target basic vector.
H04B 7/06 - Diversity systemsMulti-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station
91.
DATA STREAM PROCESSING METHOD, ELECTRONIC DEVICE, STORAGE MEDIUM AND PROGRAM PRODUCT
The present application provides a data stream processing method, an electronic device, a storage medium, and a program product. The method comprises: locking and deleting first padding in a first 257b data stream, to obtain a second 257b data stream; locking first overhead in the second 257b data stream, the first overhead comprising a 257b FlexE overhead code block, the 257b FlexE overhead code block being obtained by means of conversion of four 66b code blocks, the four 66b code blocks comprising one O code block, and the O code block being located at a fixed position among the four 66b code blocks; based on the first overhead, determining and deleting a non-equipped FlexE instance from the second 257b data stream, to obtain a third 257b data stream.
The present application relates to the field of device operation and maintenance, and discloses a fault root cause localization method, an electronic device, a storage medium, and a program product. The method comprises: constructing a fault record window chain on the basis of a plurality of collected anomaly events, wherein each time window node of the fault record window chain comprises the number of all anomaly events collected within a corresponding time window and the frequency of each anomaly event collected within the corresponding time window; on the basis of the fault record window chain, determining an anomaly event frequency, an inverse anomaly window frequency, and an inverse global anomaly event frequency of each anomaly event; determining an anomaly score of each anomaly event on the basis of the anomaly event frequency, the inverse anomaly window frequency, and the inverse global anomaly event frequency of each anomaly event; and performing fault root cause localization on the basis of the anomaly score of each anomaly event.
H04L 41/0631 - Management of faults, events, alarms or notifications using root cause analysisManagement of faults, events, alarms or notifications using analysis of correlation between notifications, alarms or events based on decision criteria, e.g. hierarchy, tree or time analysis
93.
PRIVACY POLICY GENERATION METHOD, ELECTRONIC DEVICE, AND COMPUTER-READABLE STORAGE MEDIUM
A privacy policy generation method, an electronic device, and a computer-readable storage medium, relating to the technical field of terminal privacy security. The privacy policy generation method comprises: performing sensitive behavior scanning on a component object, and recording a target program interface where a sensitive behavior is detected (S10); performing sensitive behavior recognition on the target program interface on the basis of a preset sensitive behavior set, and recording a recognition result (S20); on the basis of the recognition result, determining a privacy policy statement corresponding to the sensitive behavior in the preset sensitive behavior set (S30); and assembling the privacy policy statement on the basis of a preset rule, so as to generate a privacy policy text (S40).
G06F 21/51 - Monitoring users, programs or devices to maintain the integrity of platforms, e.g. of processors, firmware or operating systems at application loading time, e.g. accepting, rejecting, starting or inhibiting executable software based on integrity or source reliability
94.
METHOD AND DEVICE FOR ADJUSTING NETWORK QUEUE PARAMETERS, AND COMPUTER-READABLE MEDIUM AND COMPUTER PROGRAM PRODUCT
Provided in the present disclosure is a method for adjusting network queue parameters, the method comprising: acquiring network queue load data of a target device, wherein the network queue load data represents the load condition of a network queue in a network device, the network queue being used for caching a network data packet; on the basis of the network queue load data, determining network pressure; and on the basis of the network pressure, adjusting network queue parameters of the target device. Further provided in the present disclosure are a device for adjusting network queue parameters, and a computer-readable medium and a computer program product.
The present application relates to, but is not limited to, the technical field of communications, and provides a packet processing method, an electronic device, a storage medium, and a computer program product. The packet processing method comprises: receiving a packet from a first network, wherein the packet carries a cycle label, the cycle label is configured to indicate a forwarding cycle and a forwarding sub-cycle corresponding to the packet, and the forwarding sub-cycle falls within the forwarding cycle (S110); on the basis of a forwarding sub-cycle offset of a second network with respect to the first network, and the forwarding cycle and the forwarding sub-cycle corresponding to the packet, determining a target cycle corresponding to the packet (S120); and sending the packet in the target cycle (S130).
Embodiments of the present application provide a data transmission method and an electronic device. The method comprises: a server receives a first message sent by a client, the first message comprising indication information, and the indication information being used for indicating the connection type of the first message; on the basis of the indication information, the server sends, by means of a transmission link, data carried in the first message to logic modules matching the connection type, wherein a plurality of different logic modules use the same transmission link.
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
Provided in the present disclosure is a permission management method, comprising: when an identity recognition condition is satisfied, acquiring identity feature information of the current user of a terminal device; when the identity feature information of the current user is not matched with pre-stored identity feature information of an authorized user, acquiring user authorization information of the current user; and, on the basis of the user authorization information of the current user, updating device permission information of the terminal device, the initial state of the device permission information of the terminal device being configured on the basis of the user authorization information of the authorized user. Further provided in the present disclosure are an electronic device, a computer-readable storage medium, and a computer program product.
Provided in the present disclosure is a signal interference processing method. The method comprises: when a preset communication link meets a link isolation condition, adjusting the on/off state of a target electronic switch in the preset communication link, so as to isolate a receiving link of the preset communication link from a transmitting link thereof; determining the signal intensity of a detection signal of the receiving link; and when the signal intensity is greater than or equal to a target connection threshold, adjusting the on/off state of the target electronic switch, so as to connect the receiving link of the preset communication link to the transmitting link thereof. Further provided in the present disclosure are an electronic device, a computer-readable storage medium and a computer program product.
Provided in the present application are a video code stream processing method, and a device, a medium and a program product. The method comprises: receiving an original video code stream (S100); on the basis of the original video code stream, determining a main bit stream and a long-term reference frame bit stream corresponding to the main bit stream (S200); encapsulating the main bit stream and the long-term reference frame bit stream to obtain media data, generating a media index file, and storing the media data and the media index file, wherein the media index file comprises index information (S300); and in response to receiving a media data request carrying the index information, performing indexing on the basis of the index information to obtain the media data, and sending the media data (S400).
Provided in the present application are a cell handover method, and a base station and a computer storage medium. The method comprises: on the basis of the current cell handover mode of a user equipment, sending a handover preparation instruction to a handover request entity, such that the handover request entity performs cell handover preparation (S110); and in response to receiving a handover preparation response message, sending source-side data of the user equipment to the handover request entity, such that the handover request entity establishes data transmission between the user equipment and a target cell (S120).
