A non-transitory computer-readable recording medium stores a selection program for causing a computer to execute processing including: obtaining a relaxed structure of a substance from an initial structure of the substance by numerical calculation; and selecting an intermediate structure of which a difference between energy of the intermediate structure and energy of the relaxed structure is less than a predetermined value, from among a plurality of the intermediate structures of the substance, obtained in a calculation process to obtain the relaxed structure, as training data used to train a machine learning model that estimates energy of a predetermined structure from the predetermined structure of the substance.
A method may include obtaining a first power profile estimation (PPE) for a first optical signal propagating through an optical link in a first direction. The method may include obtaining a second PPE for a second optical signal propagating through the optical link in a second direction opposite the first direction. The method may also include generating an optical link analysis indicating one or more locations along the optical link that apply a gain or loss to optical signals propagating through the optical link.
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
G01M 11/00 - Testing of optical apparatusTesting structures by optical methods not otherwise provided for
H04B 10/25 - Arrangements specific to fibre transmission
3.
MOLECULAR SIMULATION METHOD AND INFORMATION PROCESSING APPARATUS
An information processing apparatus computes, based on molecular information, for each of a plurality of interatomic distances, an estimated execution time and an estimated number of iterations of an algorithm that computes a molecular energy by using quantum circuit data. The information processing apparatus determines a limited number of iterations for each of the plurality of interatomic distances, based on a time limit and based on the estimated execution time and the estimated number of iterations. The information processing apparatus computes the molecular energy for each of the plurality of interatomic distances based on the limited number of iterations, by executing the algorithm.
G16C 10/00 - Computational theoretical chemistry, i.e. ICT specially adapted for theoretical aspects of quantum chemistry, molecular mechanics, molecular dynamics or the like
G16C 20/30 - Prediction of properties of chemical compounds, compositions or mixtures
G16C 20/70 - Machine learning, data mining or chemometrics
4.
HEAT DISSIPATION SHEET AND METHOD OF MANUFACTURING HEAT DISSIPATION SHEET
A heat dissipation sheet includes a carbon material layer configured to include a plurality of linear carbon materials arranged in parallel with each other, an adhesive resin layer configured to include a first surface to be in contact with an end of each of the plurality of linear carbon materials, a thickness of the adhesive resin layer being less than 1 μm, and a release sheet configured to be in contact with a second surface among a plurality of surfaces of the adhesive resin layer, the second surface being over a side opposite to the first surface.
B32B 7/12 - Interconnection of layers using interposed adhesives or interposed materials with bonding properties
B32B 3/08 - Layered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shapeLayered products comprising a layer having particular features of form characterised by features of form at particular places, e.g. in edge regions characterised by added members at particular parts
B32B 7/06 - Interconnection of layers permitting easy separation
5.
PROMPT ADJUSTMENT PROGRAM, PROMPT ADJUSTMENT METHOD, AND INFORMATION PROCESSING DEVICE
The present invention generates a plurality of sample prompts that correspond to a plurality of types of combinations on the basis of structural information that expresses the structure of a prompt as a combination of a plurality of items that correspond to a plurality of blocks that are to constitute the prompt and values that can be assumed by the items and determines the items included in the combination used to generate the sample prompt that has the highest inference accuracy of results obtained by inputting the plurality of sample prompts into a language model to be adjustment items for adjusting the prompt. The present invention can thereby optimize the prompt at a low calculation cost.
This information processing program causes a computer to execute processing for determining a variable value corresponding to a critical value specified on the basis of data indicating a topology change with respect to a sample set of variable values as a threshold for discretizing the sample set.
This information processing device: acquires graph information in which, for a plurality of variables, variables having a causal relationship are connected by directed edges, variables between which a causal relationship is unknown but which are related to each other are connected by undirected edges, and at least two variables focusing on a causal relationship are connected by directed edges; selects, in the graph information, the shortest path that connects focusing variables A and Y and that includes the undirected edge; enumerates patterns in each of which the undirected edge included in the shortest path is set to a directed edge under a constraint that a cycle is not generated; and outputs, as a causal graph, patterns enumerated when the selection of the shortest path and the enumeration of patterns are repeated until there is no undirected edge in the enumerated patterns.
This information processing device: selects one or more determination rules from among a plurality of determination rules so as to maximize the value of an objective function based on the determination accuracy and the interpretability of the determination rules, and extracts a first rule list; generates, when an additional-candidate determination rule which has been selected from among the plurality of determination rules is added to a candidate set, at least one candidate rule list by adding, if the value of an objective function about a candidate rule list comprising determination rules in the candidate set increases, the additional-candidate determination rule to the candidate set, but not adding, if the value of the objective function does not increase, the additional-candidate determination rule and a determination rule including one or more conditions included in the additional-candidate determination rule, to the candidate set; and outputs the first rule list and the candidate rule list in which the difference between the objective function values of the first rule list and the candidate rule list is equal to or less than a threshold.
Provided in the embodiments of the present application are a mobility management method and apparatus. The method comprises: a first network device receiving a first report sent by a terminal device, wherein the first report comprises LTM connection failure information; and the first network device determining the type of a LTM connection failure on the basis of the first report, wherein the type of the LTM connection failure comprises one of the following: too-late LTM, too-early LTM, or LTM to a wrong cell. On the basis of the embodiments of the present application, a SON enhancement scheme in an LTM scenario is introduced, LTM-related failure information reported by a UE is introduced, and an LTM failure scenario is defined, such that a network device can identify the LTM failure scenario on the basis of a mobility report related to the LTM scenario, so as to perform corresponding parameter adjustment, thereby improving the LTM robustness.
Provided in the embodiments of the present application are a mobility management method and apparatus. The method comprises: on the basis of an acquired first report, a first network device CU determining a second network device DU corresponding to the first report; and the first network device CU sending the first report to the second network device DU, wherein the second network device DU is a device subordinate to the first network device CU. On the basis of the embodiments of the present application, under a CU-DU architecture, after receiving a first report, a network device CU may forward the first report to a corresponding network device DU, such that the network device DU may perform corresponding parameter adjustment on the basis of the first report, thereby improving the LTM robustness.
A matrix scheduler that concentrates dependency information in a column includes: a memory; and a processor being coupled to the memory and including a matrix table containing an at most N×M cells and 1×M cells, where N and M are independently of each other natural numbers more than one, the 1×M cells storing a grant signal, the processor being configured to store a dep signal into each of the N×M cells, the dep signal indicating the cell has dependency of a producer of an entry of the cell, when an instruction is issued from the matrix scheduler, set a bit of the grant signal corresponding to an issued scheduler entry to 1, and when products of the dep signals of cells in one row of the matrix table and an inverted signal of the grant signal are all zero, execute the instruction.
In an embodiment, operations include detecting a first event log associated with a first network component of an open-radio access network (O-RAN). The operations further include generating a first digest. The operations further include generating each encryption key of a first set of encryption keys, based on an encryption layer of a set of encryption layers, and the first event log. The operations further include generating a first set of encrypted digests for the first digest. The operations further include generating first log information associated with the first network component. The operations further include transmitting the first log information to a service management component of the O-RAN. The service management component is configured to pre-sort the first log information, based on the first set of encrypted digests. The operations further include controlling a first display device to render the first log information.
An information processing apparatus converts a plurality of time-series numerical values included in sensing information of a sensor set in a machine or around the machine into a character string representing time-series transition. The information processing apparatus trains a machine learning model using training data that includes input data, which is generated based on a control command that controls the machine and information regarding the character string representing the time-series transition, and a label indicating whether or not abnormality is occurring in the machine.
A quantum bit device that includes: a first qubit substrate; a second qubit substrate; and a first relay substrate provided between the first qubit substrate and the second qubit substrate, wherein: the first qubit substrate includes a first qubit, a first control electrode, and a first read-out electrode; the second qubit substrate includes a second qubit, a second control electrode, and a second read-out electrode; and the first relay substrate includes a first control line that is connected to the first control electrode, and transmits a control signal that controls the first qubit, a read-out line that is a line connected to both the first read-out electrode and the second read-out electrode, and that transmits a response signal indicating a state of the first qubit or the second qubit, a first access electrode connected to the control line, and a second access electrode connected to the read-out line.
In an embodiment, operations include detecting a first event log associated with a first network component of an open-radio access network (O-RAN). The operations further include generating a first digest associated with the first event log. The operations further include generating a first encrypted digest from the first digest based on application of the first encryption key on the first digest. The operations further include generating first log information associated with the first network component, based on the first event log and the first encrypted digest. The operations further include transmitting the first log information to a service management component of the O-RAN for validation of an authenticity of the first event log based on the first encrypted digest. The operations further include controlling a first display device to render the first log information based on authenticity of the first event log.
An information processing apparatus estimates, for each of a plurality of interatomic distances, an execution time of a first algorithm that obtains a molecular energy using quantum circuit data. The information processing apparatus determines an interatomic distance group on the basis of a time limit and the execution times. The information processing apparatus obtains a first molecular energy corresponding to a first interatomic distance included in the interatomic distance group, by executing the first algorithm on the first interatomic distance. The information processing apparatus outputs the first molecular energy and a second molecular energy corresponding to a second interatomic distance, obtained by a second algorithm, the second interatomic distance being not included in the interatomic distance group.
The present invention makes it possible to achieve optimization of a prompt at a small calculation cost by configuring a prompt by: generating a plurality of sample prompts corresponding to a plurality of types of combinations on the basis of a plurality of items corresponding to a plurality of blocks constituting the prompt, and configuration information represented by a combination of possible values for the respective items; and determining, as an adjustment item for adjusting the prompt, an item included in the combination used for generating the sample prompt having the highest inference accuracy among results obtained by inputting the plurality of sample prompts to a language model.
Embodiments of the present application provide a mobility management method and apparatus. The method comprises: a terminal device receives configuration information sent by a first network device and used for configuring a layer 1/layer 2 triggered mobility (LTM) candidate cell; the terminal device determines that an LTM connection failure occurs; and the terminal device records connection failure information, the connection failure information comprising at least one of the following: information for indicating a duration from the last time the terminal device receives the configuration information to the occurrence of the connection failure; and information for determining that the mobility type related to the connection failure is LTM. According to the embodiments of the present application, an SON enhancement scheme under LTM scenarios is introduced, so that a terminal device can report LTM-related connection failure information, and thus a network device can perform corresponding parameter adjustment according to the connection failure information, thereby improving LTM robustness.
A method includes: obtaining data pieces; identifying a first ratio of data pieces with a first attribute of the data pieces having a first value, among the data pieces; identifying a second ratio of data pieces with the first attribute having the first value in a first group, and a third ratio of data pieces with the first attribute having the first value in a second group, the first group being a group where a second attribute has a second value, the second group being a group where the second attribute has a third value; and executing a fairness evaluation for a third group where the second attribute has the second value and a third attribute has a fourth value, when a fourth ratio of data pieces with the first attribute having the first value in the third group meets a criterion based on the first to third ratios.
A base station device including: a transmitter configured to transmit, for each logical channel, first data of a first type and second data of a second type; and processor circuitry configured to: omit information about a data length of the second data in a MAC protocol data unit (PDU), place a medium access control (MAC) header in front of a MAC service data unit (MSDU) of the second data, and multiplex the first data and the second data, wherein the data length of the second data is omitted from the MAC header and an R bit (reserved bit) is set in the first bit of the first octet in the MAC header.
A device includes a waveguide chip that includes a clad layer and an optical waveguide formed on the clad layer, and an optical fiber optically coupled to the optical waveguide, wherein the clad layer has a hollow below a coupling region where the optical waveguide is optically coupled to the optical fiber, and the optical waveguide contacts the optical fiber in the coupling region, and deflects in a lamination direction of the waveguide chip inside the hollow.
Conventional techniques for explaining graph machine learning models are problematic, for example, in that when there are a plurality of graph patterns that contribute to a specific prediction, it is not possible to comprehensively present these graph patterns. This information output program causes a computer to perform processing for: identifying, for each of a plurality of sets of graph data corresponding to at least any one label that corresponds to a prediction result of a trained graph machine learning model, one or more nodes, the contribution of which to the prediction result of the set of graph data satisfies a prescribed condition; identifying, in each of one or more groups obtained by classifying the identified one or more nodes, a frequent graph pattern from partial graph data including the identified one or more nodes; and outputting information indicating the identified frequent graph pattern, as explanatory information for the trained graph machine learning model. This allows for improved explanation of the graph machine learning model.
This quantum device comprises: a plurality of quantum bit elements each including a diamond crystal layer, which has a central part and extension parts connected to the central part and extending in 2n directions (n is an integer of 2 or more) from the central part, and a color center formed in the central part; input optical waveguides which are respectively connected to n end sections of the extension parts and transmit light that enters the color center; output optical waveguides which are respectively connected to the n end sections of the extension parts and transmit photons emitted by the color center; and a splitter connected to an output waveguide of a first quantum bit element among the plurality of quantum bit elements and an output waveguide of a second quantum bit element among the plurality of quantum bit elements.
This terminal device has a reception unit and a processing unit. The reception unit receives, from a base station device, an RRC reconfiguration message including synchronized reconfiguration. The processing unit executes a handover in accordance with the RRC reconfiguration message. When a handover failure is detected, the processing unit performs control so as to execute first processing. During the first processing, if a security key update has been performed during the handover, control is performed so as to perform LTM cell switching in accordance with a first setting including one or more cell change destination candidates, and if the security key update has not been performed during the handover, control is performed to request re-establishment of RRC connection to the base station device.
A non-transitory computer-readable recording medium stores a compression program for causing a computer to execute a process including: acquiring protein information represented by an encoded amino acid sequence; compressing the protein information based on a compression policy that defines a relationship between a condition of a compression ratio of the protein information or a condition of time taken when the protein information that has been compressed is decompressed, and a lossless compression function; registering the protein information that has been compressed in a storage device; and when access to the storage device is received, decompressing compressed protein information registered in the storage device.
A measurement apparatus includes: a measurement table that has a recess inclined in a predetermined direction and an opening provided in the recess; and a processor to: discriminate whether an object is placed in the recess and is stationary; protrude a data acquisition element from the opening when discriminating that the object is placed in the recess and is stationary; press the data acquisition element against the object; and acquire measurement data on the object from the data acquisition element.
A computer is caused to execute a process including: acquiring a training data set including a plurality of pieces of training data in which a plurality of A-mode ultrasonic signals obtained for each of different positions of an object are associated with evaluation results for the object, and for each of the plurality of pieces of training data, weighting a plurality of pieces of feature data acquired based on the plurality of A-mode ultrasonic signals, by using a weighting model that weights feature data, acquiring inference results of evaluation for the object by inputting the plurality of pieces of weighted feature data to a classification model that outputs inference results of evaluation in response to input of the plurality of pieces of feature data, and training the weighting model and the classification model based on the inference results and the evaluation results in the training data.
A memory stores quantum circuit data defining a quantum circuit that varies with the value of a parameter. For a common part where the types and sequence of one or more quantum gates are common in a first quantum circuit generated with a first value input into the parameter and a second quantum circuit generated with a second value input into the parameter, a processor generates tensor data representing the computation result of the common part using tensor data representing the quantum operation performed by the one or more quantum gates included in the common part. The processor computes the computation result of the first quantum circuit and the computation result of the second quantum circuit using the generated tensor data.
An apparatus for acquiring data, configured in a second device, wherein an AI/ML model comprises an information generation portion located in a first device and an information reconstruction portion located in the second device, includes: processor circuitry configured to acquire first data inputted into the information generation portion; and to acquire second data corresponding to the first data and outputted from the information generation portion.
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
H04B 7/0456 - Selection of precoding matrices or codebooks, e.g. using matrices for antenna weighting
30.
DATA GENERATION METHOD, NON-TRANSITORY COMPUTER-READABLE RECORDING MEDIUM STORING DATA GENERATION PROGRAM, AND DATA GENERATION DEVICE
A recording medium storing a program for causing a computer to execute: acquiring an inference result of skeleton information for each piece of teacher data when teacher data is input to a model, which includes an error of each part of a skeleton; specifying first teacher data in which an error of a first part is greater than an error of the first part of another piece of the teacher data from the teacher data using the inference result; specifying second teacher data in which an error of a second part is greater than an error of the second part of another piece of the teacher data from the teacher data using the inference result; and generating third teacher data by replacing information regarding the second part in the first teacher data with information regarding the second part in the second teacher data.
A recording medium stores a program for causing a computer to execute a process including: under a condition regarding articles, columns including article shelves, and aisles provided between the columns, and a moving body that has a placement space moves on the aisles, moves the aisles, and performs a first work of placing first articles on the moving body from the article shelves, and a second work of placing second articles placed on the moving body on the article shelves, executing, on a work plan in which the moving body performs the first work and the second work on the articles, either a first search of searching for the work plan so as to decrease a total moving distance in a direction or a second search of searching for the work plan so as to decrease the total moving distance between the columns, and dividing the work plan into subplans.
A resource determination apparatus includes: a receiver configured to: receive indication information transmitted by a network device, and receive resource scheduling information transmitted by the network device; and processor circuitry configured to: determine resource allocation in frequency domain as an intersection of resource blocks of scheduled interlaces indicated by the resource scheduling information, and a union of: scheduled bandwidth unit(s) indicated by the indication information; and spacing bandwidth resource(s) between the scheduled bandwidth unit(s), and determine a size of a transport block according to the resource allocation in frequency domain.
A quantum device according to the present invention comprises a first diamond crystal layer that has a first center point and is shaped to extend in four mutually orthogonal directions from the first center point, a second diamond crystal layer that has a second center point and is shaped to extend in four mutually orthogonal directions from the second center point, and a color center that is on one of the first diamond crystal layer and the second diamond crystal layer. The first diamond crystal layer and the second diamond crystal layer comprise a quantum bit element that is layered such that at least a portion of the first center point and the second center point overlap, a first optical waveguide that is connected to each of four first end parts of the first diamond crystal layer, and a second optical waveguide that is connected to each of four second end parts of the second diamond crystal layer.
A quantum device includes a waveguide that has a first surface, and extends in a first direction parallel to the first surface, a plurality of nanopillars coupled to the first surface and arranged in the first direction, color centers formed in each of the plurality of nanopillars, and electrode pairs provided for each of the color centers, wherein each of the plurality of nanopillars is inclined from the first direction, and extends in a second direction inclined from a normal direction of the first surface, and electric fields are applied to the color centers from the electrode pairs.
H05B 33/20 - Light sources with substantially two-dimensional radiating surfaces characterised by the chemical or physical composition or the arrangement of the material in which the electroluminescent material is embedded
B82Y 20/00 - Nanooptics, e.g. quantum optics or photonic crystals
G06N 10/40 - Physical realisations or architectures of quantum processors or components for manipulating qubits, e.g. qubit coupling or qubit control
H05B 33/10 - Apparatus or processes specially adapted to the manufacture of electroluminescent light sources
H05B 33/14 - Light sources with substantially two-dimensional radiating surfaces characterised by the chemical or physical composition or the arrangement of the electroluminescent material
H05B 33/18 - Light sources with substantially two-dimensional radiating surfaces characterised by the nature or concentration of the activator
H05B 33/26 - Light sources with substantially two-dimensional radiating surfaces characterised by the composition or arrangement of the conductive material used as an electrode
35.
BASE STATION, TERMINAL, AND WIRELESS COMMUNICATION SYSTEM
A base station includes: a control unit that determines to cause a state of a cell to transition to a second state in which transmission of a downlink signal in the cell is restricted; and a transmitter that transmits, to a terminal, a first signal that includes first information that indicates that the cell is to transition to the second state, wherein a period of the second state is equal to or greater than a multiple of a cycle of a discontinuous reception (DRX) state of the terminal.
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
36.
INFORMATION PROCESSING DEVICE, METHOD, AND NON-TRANSITORY COMPUTER-READABLE RECORDING MEDIUM STORING PROGRAM
An information processing device includes: a plurality of qubits; a generator that generates a plurality of signals; a converter that converts the plurality of signals into a plurality of analog signals of which signal levels are regulated; a multiplexer that outputs a multiplexed signal obtained by multiplexing the plurality of analog signals; a divider that divides the multiplexed signal into a plurality of divided signals; a plurality of attenuators that attenuates the plurality of divided signals and provides the plurality of attenuated divided signals to each of the plurality of qubits; and a setter that sends setting signals that are common to the plurality of attenuators and indicate each of attenuation amounts of the plurality of attenuators, wherein the attenuation amounts are set in the plurality of attenuators, based on the setting signals.
A non-transitory computer-readable recording medium storing a machine learning program causes the computer to execute a process includes obtaining video in which work of a person is captured, receive a label that indicates a work element of the person for each time-series section of the obtained video; and executing training processing that trains a transition probability of a feature per unit time included in the work element based on the received label, wherein the training processing changes, when the label of a specific type is assigned to the entire or a part of the work element, the transition probability of the feature in the section that corresponds to the label based on the type of the assigned label.
A communication device that accommodates a radio terminal in a radio access network, the communication device includes an interface circuit configured to communicate with a second communication device, a storage configured to store control information that includes a first profile that represents a function provided by the communication device and a communication parameter that corresponds to the first profile, and processor circuitry configured to edit the control information, wherein the interface circuit transmits the first profile to the second communication device, and receives a second profile, the processor circuitry edits the control information based on the second profile, the interface circuit transmits the edited control information to the second communication device, and when the second communication device determines that a communication parameter related to the function provided by the second communication device is supported by the communication device, the communication device starts a communication service.
A recording medium storing a program for causing a computer to execute: classifying a plurality of pieces of data into a plurality of groups, based on a first attribute of multiple attributes included in each of the plurality of pieces of data; comparing a positive example rate of data included in a first group of the plurality of groups with a positive example rate of specific data in which a value of a second attribute of the multiple attributes in data included in a second group of the plurality of groups is included in a range according to a distribution of the value of the second attribute of the data included in the first group; and executing bias evaluation on data based on comparison between other groups other than the second group of the plurality of groups and the first group, based on a result of the comparing processing.
G06Q 10/0637 - Strategic management or analysis, e.g. setting a goal or target of an organisationPlanning actions based on goalsAnalysis or evaluation of effectiveness of goals
40.
QUANTUM ERROR CORRECTION CODE EVALUATION PROGRAM, QUANTUM ERROR CORRECTION CODE EVALUATION METHOD, AND INFORMATION PROCESSING DEVICE
The present invention reduces calculation load for evaluating quantum error correction code. An information processing device (10) according to the present invention generates a first map (5) for converting an input state to an output state on the basis of input/output information (4) indicating a correspondence relationship between the input state in syndrome measurement for a second quantum error correction code (3) and the output state including influence of noise. The information processing device (10) generates a second map (6) in which an amount of influence received by noise is extracted from the first map (5), and generates a first quantum error correction code (8) made up of a plurality of the second quantum error correction codes (3). The information processing device (10) causes noise generated according to the second map (6) to act on each of the second quantum error correction codes (3) making up the first quantum error correction code (8), and evaluates performance of error correction by the first quantum error correction code (8) with respect to an quantum error occurring due to the influence of noise.
The present invention improves performance of a machine learning model. A information processing device according to the present invention acquires a plurality of pieces of first training data, in each of which an input feature amount and the correct answer of determination processing with respect to a captured image are associated with each other. The input feature amount includes pixel information of the captured image and setting information of an imaging device at the time of having captured the captured image. The information processing device trains a machine learning model on the basis of the result of determination processing for the captured image to be determined when the input feature amount indicated in the plurality of first training data is inputted to the machine learning model and the correct answer indicated in the plurality of first training data.
An optical transmission apparatus that performs Raman amplification on WDM light in a transmission line using Raman pumping light, the optical transmission apparatus includes a controller configured to at a time of activation, measure a first reflected light level that is reflected and input from the transmission line when only optical supervisory channel (OSC) light is transmitted to the transmission line, measure a second reflected light level that is reflected and input from the transmission line when the WDM light, the Raman pumping light, and the OSC light are transmitted to the transmission line, calculate a correction value based on the first reflected light level and the second reflected light level, and during operation of the optical transmission apparatus, monitor the input reflected light level and perform auto power shut down (APSD) control based on a reflected light level corrected by the correction value.
H04B 10/071 - Arrangements for monitoring or testing transmission systemsArrangements for fault measurement of transmission systems using a reflected signal, e.g. using optical time domain reflectometers [OTDR]
H01S 3/30 - Lasers, i.e. devices using stimulated emission of electromagnetic radiation in the infrared, visible or ultraviolet wave range using scattering effects, e.g. stimulated Brillouin or Raman effects
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
H04B 10/291 - Repeaters in which processing or amplification is carried out without conversion of the main signal from optical form
A computer-implemented method for predicting evolution of a traffic simulation, the method comprising: accepting input of traffic data comprising data obtained from sensors in a geographic region; executing a traffic simulation using the traffic data for the geographic region; responsive to a decision to model the effects of a modification to the traffic simulation, selecting an intervention from a plurality of potential interventions; modifying parameters of the traffic simulation using the intervention to obtain modified simulation parameters; and executing a modified traffic simulation using the modified simulation parameters, the modified traffic simulation being configured to reflect the effect of the intervention on traffic.
A data transmission method, a method for feedback of channel state information, an apparatus and a system, the data transmission method including: a network device transmits first information to a terminal equipment, the first information indicating the terminal equipment to generate and feedback channel state information; the network device receives channel state information of N layers transmitted by the terminal equipment, wherein N≥2 and channel state information of at least two layers of the channel state information of N layers is indicated by unequal numbers of bits; and the network device transmits data to the terminal equipment according to the channel state information of N layers.
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
H04B 7/0456 - Selection of precoding matrices or codebooks, e.g. using matrices for antenna weighting
H04W 24/02 - Arrangements for optimising operational condition
A monitoring apparatus of an AI/ML model includes: a receiver configured to receive an uplink reference signal transmitted by a terminal equipment; and processor circuitry configured to perform performance monitoring on the AI/ML model by using the uplink reference signal.
H04W 24/02 - Arrangements for optimising operational condition
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
A communication apparatus that supports sidelink communication includes: processor circuitry configured to: determine a first threshold based on information regarding sidelink communication, the first threshold is a threshold for a percentage of available resources in the resource pool, when the percentage of available resources are smaller than the first threshold, increase a second threshold for reception energy, perform an exclusion process to exclude resources from the resource pool, and repeat the exclusion process until the percentage of available resources being equal to or higher than the first threshold; and a transmitter configured to transmit control information and data by using a resource selected by the processor, wherein the information regarding sidelink communication is a priority requested when the data is transmitted via sidelink communication.
An electronic device includes a superconducting electrode configured to contain PdTe2 or PdTe and a transition metal dichalcogenide film laminated on the superconducting electrode.
A communication device includes a first port that receives a signal related to a first time source, a second port that receives a signal related to a second time source, a switch that selects the first port or the second port, and processor circuitry configured to execute time synchronization processing by using a signal received via the selected port, detect an event that deteriorates accuracy of the time synchronization processing, transmit information related to a threat to the time synchronization processing to a communication management device when the event is detected, and receive information of recommend port from the communication management device, wherein, when the processor circuitry receives the information from the communication management device, the switch selects the first port or the second port based on a priority of the first time source, a priority of the second time source, and the information received from the communication management device.
Methods and devices for transmitting and receiving a random access response includes a transmitter configured to transmit a first message (MsgA) of a two-step random access procedure to a network device, the first message (MsgA) comprises a preamble and data; and a processor configured to control to perform to monitor, in a first random access response reception time window, a physical downlink control channel (PDCCH) scheduling a first random access response in a two-step random access procedure transmitted by the network device, the first random access response including a C-RNTI and contention resolution information, wherein the processor is further configured to control to perform to monitor, in the first random access response reception time window, the PDCCH scheduling a second random access response transmitted by the network device, the second random access response including a TC-RNTI and an uplink resource grant used for transmitting a third message.
Concept drift occurs during the operation of an AI system, resulting in a decrease in accuracy of the machine learning model. Therefore, there is a method to maintain accuracy by training each layer of the machine learning model separately and decreasing the learning rate slowly and gently to keep up with the concept drift. However, conventional methods train only some specific layers, which may result in an inability to sufficiently maintain the accuracy of the machine learning model. This machine learning program causes a computer to perform a process for: acquiring, when inference is performed using a trained neural network model, the degree of contribution of each of a plurality of neurons included in the neural network model to the prediction; and on the basis of the degrees of contribution, re-training the neural network without updating the weights of neurons, among the plurality of neurons, the degrees of contribution of which meet a prescribed criterion. Thus, it is possible to suppress degradation in accuracy of the neural network model.
The present invention improves the accuracy of virus mutation prediction by determining, on the basis of a first feature quantity pertaining to the three-dimensional structure of a virus protein and a second feature quantity pertaining to a contribution degree with respect to prediction, acquired on the basis of the first feature quantity, of a machine learning model, the weight of an input feature quantity in a regression model (110) that predicts the amino acid sequence of a virus after mutation using the amino acid sequence of the virus as the input feature quantity.
This terminal device comprises: a reception unit that receives, from a base station device, a second signal including information relating to a prescribed timing at which another terminal device transmits a first signal to the base station device; and a control unit that, in accordance with the second signal, sets a first state in which first electric power can be received at the prescribed timing.
H04W 92/18 - Interfaces between hierarchically similar devices between terminal devices
H02J 50/80 - Circuit arrangements or systems for wireless supply or distribution of electric power involving the exchange of data, concerning supply or distribution of electric power, between transmitting devices and receiving devices
53.
METHOD AND APPARATUS FOR ACQUIRING CAPABILITY INFORMATION, METHOD AND APPARATUS FOR SENDING CAPABILITY INFORMATION, AND COMMUNICATION SYSTEM
Embodiments of the present application provide a method and apparatus for acquiring capability information, a method and apparatus for sending capability information, and a communication system. The apparatus for acquiring capability information is applied to a first network device. The apparatus comprises a first processor, and the first processor controls the first network device to perform the following operations: the first network device sends first request information, wherein the first request information is used for indicating required artificial intelligence-related capability information of a terminal device; and the first network device receives the required artificial intelligence-related capability information of the terminal device.
An apparatus for aperiodic channel state information reporting, applied to a terminal equipment, includes: a receiver configured to receive a DCI format used for scheduling a plurality of physical uplink shared channels (PUSCHs) in a plurality of cells, the DCI format comprising a single CSI request field which is applied to a cell with the smallest serving cell index among scheduled cells indicated by another field in the DCI format; and a transmitter configured to perform aperiodic CSI reporting using a PUSCH on the cell with the smallest serving cell index scheduled by the DCI format which triggers an aperiodic CSI trigger state.
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
H04L 1/00 - Arrangements for detecting or preventing errors in the information received
A detection device including: a memory; and a processor coupled to the memory, the processor being configured to perform processing including: the processor selecting a color channel, based on a separation degree that is an index calculated from each of a first color channel image and a second color channel image for an original image that includes a background image and a hand image and used to determine separability between the background image and the hand image; and the processor detecting the hand image included in the original image, by using the color channel selected.
G06V 10/26 - Segmentation of patterns in the image fieldCutting or merging of image elements to establish the pattern region, e.g. clustering-based techniquesDetection of occlusion
G06V 10/56 - Extraction of image or video features relating to colour
G06V 10/771 - Feature selection, e.g. selecting representative features from a multi-dimensional feature space
G06V 40/10 - Human or animal bodies, e.g. vehicle occupants or pedestriansBody parts, e.g. hands
56.
COMPUTER-READABLE RECORDING MEDIUM STORING ARITHMETIC PROGRAM, ARITHMETIC METHOD, AND INFORMATION PROCESSING DEVICE
A non-transitory computer-readable recording medium storing an arithmetic program for causing a computer to execute processing includes calculating single-objective optimal solutions that have better values than initial solutions by executing single-objective optimization by using each of a plurality of objective functions as a first evaluation function for the initial solutions, and executing, by using the single-objective optimal solutions as starting points, multi-objective optimization for a second evaluation function by using, as the second evaluation function, a linear weighted sum obtained by performing weighting for each of the plurality of objective functions according to the single-objective optimal solutions.
An information indication apparatus, applicable to a network device, includes: a transmitter configured to transmit indication information to a terminal equipment, wherein the indication information indicates: activation/deactivation of a channel state information (CSI) report in a list of CSI reports; and, enabling/disabling of at least one channel state information reference signal (CSI-RS) resource within a CSI-RS resource set; and a receiver, configured to receive a channel state information (CSI) report on a physical uplink shared channel (PUSCH) or a physical uplink control channel (PUCCH).
An apparatus for measurement relaxation, applicable to a terminal equipment, the apparatus includes a first controller, the first controller being configured to: for a serving cell configured with two or more beam failure detection reference signal (BFD-RS) sets, control the terminal equipment not to perform measurement relaxation of beam failure detection (BFD).
A cell switch apparatus, provided in a terminal equipment, includes: a transmitter configured to transmit measurement result(s) to a first network node; a receiver configured to receive a MAC (Media Access Control) CE (Control Element) including cell information, TCI (Transmission Configuration Indicator) state ID(s) and TA (Timing Advance) information from the first network node; and processor circuitry configured to switch a serving cell to a cell indicated by the MAC CE.
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
Communication management device includes a processor circuitry and is used in radio communication system forming cells. The processor circuitry calculates, for each partial area, the number of terminal devices in the partial area to obtain first result. The processor circuitry calculates, for each partial area, the number of cells covering the partial area to obtain second result. The processor circuitry calculates, for each partial area, the number of terminal devices allocated to one cell based on the first and second results to obtain third result. The processor circuitry calculates, for each cell, amount of radio resources to be provided to each partial area in the cell based on usage amount of radio resources in the cell and the third result to obtain fourth result. The processor circuitry calculates, for each partial area, amount of radio resources to be provided to the partial area based on the amount of radio resources indicated by the fourth result.
A computer-implemented method for training a neural network to forecast multivariate data involves inputting datasets from a forecast location and adjacent locations. These datasets include spatio-temporal characteristics and recorded multivariate data. The method determines the longest time-series sequence length with a high occurrence frequency in the dataset. It then trains a neural network for the forecast location based on this sequence length to encode the multivariate data into a vector. Similarly, it trains neural networks for adjacent locations to encode their data into vectors. These adjacent location vectors are combined into a single vector. The forecast location vector and the combined adjacent location vector are then composed into a final vector, which is decoded to generate a forecast for the forecast location.
An apparatus for cell switching, applicable to a terminal equipment, includes: a first receiver configured to receive a MAC CE (Control Element) from a first network node; and a processor circuitry configured to switch a serving cell to a cell indicated by the MAC CE, wherein the switching a serving cell to a cell indicated by the MAC CE comprises at least one of a L1 reset procedure, a L2 reset procedure, or processing a timer maintained by an RRC (Radio Resource Control) layer.
A wireless communication system includes a first and a second wireless communication devices, wherein the first wireless communication device transmits an information signal and an energy signal and controls transmission of the information signal and the energy signal, the second wireless communication device branches a received signal from the first wireless communication device, generates a first received signal and a second received signal, rectifies the energy signal included in the first received signal and generates a direct current, decodes the information signal included in the second received signal, and generates control information that includes a request related to transmission power of the information signal and the energy signal, the second wireless communication device transmits the control information to the first wireless communication device, and the first wireless communication device controls the transmission power of the information signal and the energy signal based on the control information.
A non-transitory computer-readable recording medium stores an information processing program for causing a computer to execute processing including: determining whether or not a ratio of a sum set obtained by combining different conditions for a universal set that contains the different conditions is equal to or more than a threshold, for a plurality of hypotheses that indicates a same first causal relationship under the different conditions, stored in a memory that stores a hypothesis that indicates a causal relationship between elements; and in a case where the ratio is equal to or more than the threshold, adding a first hypothesis that unconditionally indicates the first causal relationship in the universal set, different from the plurality of hypotheses, to the memory.
A network controlled repeater includes: forwarding processor circuitry; and communicating processor circuitry configured to: transmit capability information for discrete Fourier transform spread orthogonal frequency division multiplexing (DFT-s-OFDM) waveforms to a network device, and receive control information from the network device via a control link, wherein the network controlled repeater supports cyclic prefix orthogonal frequency division multiplexing (CP-OFDM) waveforms for uplink and downlink, an uplink modulation scheme and a downlink modulation scheme; and the forwarding processor circuitry is further configured to perform forwarding at a backhaul link and/or an access link according to the control information.
An information transceiving apparatus, applicable to a first network device to which a first cell belongs, includes: a transmitter configured to transmit third indication information to a second network device, the third indication information being used to indicate the first network device to transmit a first synchronization signal block (SSB) of the first cell that should be transmitted.
A non-transitory computer-readable recording medium storing an estimation program for causing a computer to execute a process includes obtaining video data that includes a face of a patient who performs a specific task, detecting occurrence intensity of each of individual action units included in the face of the patient by inputting the obtained video data to a first machine learning model, and estimating a test score of a test tool that executes a test related to dementia by inputting a temporal change in each of the detected occurrence intensity of the plurality of action units to a second machine learning model.
A61B 5/00 - Measuring for diagnostic purposes Identification of persons
G16H 50/20 - ICT specially adapted for medical diagnosis, medical simulation or medical data miningICT specially adapted for detecting, monitoring or modelling epidemics or pandemics for computer-aided diagnosis, e.g. based on medical expert systems
68.
BASE STATION DEVICE, TERMINAL DEVICE, WIRELESS COMMUNICATION SYSTEM, AND COMMUNICATION METHOD
A base station device that communicates with a first terminal device that transmits first data includes: a controller configured to determine whether a calculation method for a single term among a plurality of terms included in an equation for determining a transmission power of the first terminal device is either a first method or a second method, the first method using a relative value based on a previous value of the single term, the second method using an absolute value that is irrelevant to the previous value of the single term; and a transmitter configured to transmit, to the first terminal device, notification information for notifying the calculation method determined by the controller.
H04W 52/28 - TPC being performed according to specific parameters using user profile, e.g. mobile speed, priority or network state, e.g. standby, idle or non-transmission
H04W 28/02 - Traffic management, e.g. flow control or congestion control
H04W 52/14 - Separate analysis of uplink or downlink
H04W 52/22 - TPC being performed according to specific parameters taking into account previous information or commands
H04W 52/24 - TPC being performed according to specific parameters using SIR [Signal to Interference Ratio] or other wireless path parameters
H04W 52/36 - Transmission power control [TPC] using constraints in the total amount of available transmission power with a discrete range or set of values, e.g. step size, ramping or offsets
Embodiments of the present application provide an AI capability reporting method and apparatus. The method comprises: a terminal device sends reporting information to a first network device, the reporting information comprising AI capability information of a first cell; or a core network device sends a fourth message to the first network device, the fourth message comprising AI capability information related to a second network device.
An information processing device (100) calculates a calculation-target excitation state Sn (i) on the basis of the value of a prescribed parameter Pn. The information processing device (100) generates candidates G (i) each representing a set of states Sx (i) orthogonal to each other on the basis of the calculated calculation-target excitation state Sn (i). The information processing device (100) calculates a set C (i) of energies Ex (i) of the respective states Sx (i) in each of the generated candidates G (i). The information processing device (100) sets a rank R (i) for the calculated set C (i) of energies Ex (i) of the respective states Sx (i) in each of the candidates G (i). The information processing device (100) updates each of the states Sx (i) with one of the candidates G (i) on the basis of the set rank R (i). The information processing device (100) changes the value of the prescribed parameter Pn so that the rank for the set C (i) of energies Ex (i) of the respective updated states Sx (i) becomes higher in a coordinate system.
G06N 10/60 - Quantum algorithms, e.g. based on quantum optimisation, or quantum Fourier or Hadamard transforms
G16C 10/00 - Computational theoretical chemistry, i.e. ICT specially adapted for theoretical aspects of quantum chemistry, molecular mechanics, molecular dynamics or the like
Optical transmission device includes: a reception unit, a detector, a mapping unit and a transmission unit. The reception unit receives a first signal transmitted based on a first clock. The detector detects rate information for storing client data in the first signal in a transmission frame based on the first signal. The mapping unit generates the transmission frame by mapping the client data to a payload area of the transmission frame based on the rate information. The transmission unit outputs the transmission frame or a second transmission frame including the transmission frame to a network. The reception unit, the detector, and the transmission unit are implemented by a hardware circuit, and the mapping unit is implemented by software processing using a processor.
A repeater includes: a receiver configured to receive first information from a network device, the first information being used to indicate a first time and/or a first beam, the first beam being denoted by a first beam index, the first time comprising at least one time unit, the time unit being a slot and/or a symbol; and processor circuitry configured to determine to apply the first beam for reception or transmission on an access link over the first time at least according to the first information.
A failure detection and recovery device includes: a receiver configured to receive a layer 2 signaling for triggering cell switch; and processor circuitry configured for: performing failure detection after the receiver receives the layer 2 signaling, and applying stored configuration when a handover failure is detected, the stored configuration at least comprising configuration of a cell or cell group in a radio resource control reconfiguration message received and stored by the terminal equipment.
H04L 41/0816 - Configuration setting characterised by the conditions triggering a change of settings the condition being an adaptation, e.g. in response to network events
An information processing apparatus, for a terminal equipment, includes: a receiver configured to receive first indication information transmitted by a network side device, the first indication information being used to indicate identification information of a first cell, and receive a first synchronization signal block (SSB) of the first cell transmitted by the network side device; and processor circuitry configured to perform downlink reception of a reference signal of a second cell; wherein the reference signal of the second cell and the first synchronization signal block of the first cell are in a quasi-colocated (QCL) relationship.
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
An apparatus for configuring a cell, provided in a first network node, includes: a first transmitter configured to transmit configuration information on a group of candidate cells to a terminal equipment, the configuration information comprising cell identification information and information needed in accessing to a cell; and a second transmitter configured to transmit L1 signaling and/or L2 signaling to the terminal equipment, the L1 signaling and/or the L2 signaling indicating at least one cell in the group of candidate cells.
A non-transitory computer-readable recording medium storing a symptom detection program for causing a computer to execute processing includes acquiring video data that includes a face of a patient who is executing a specific task, detecting each occurrence intensity of each action unit included in the face of the patient, by analyzing the acquired video data, and detecting a symptom related to a major neurocognitive disorder of the patient, based on a temporal change in the occurrence intensity of each of a plurality of the detected action units.
G16H 50/30 - ICT specially adapted for medical diagnosis, medical simulation or medical data miningICT specially adapted for detecting, monitoring or modelling epidemics or pandemics for calculating health indicesICT specially adapted for medical diagnosis, medical simulation or medical data miningICT specially adapted for detecting, monitoring or modelling epidemics or pandemics for individual health risk assessment
G16H 50/20 - ICT specially adapted for medical diagnosis, medical simulation or medical data miningICT specially adapted for detecting, monitoring or modelling epidemics or pandemics for computer-aided diagnosis, e.g. based on medical expert systems
77.
ARTIFICIAL INTELLIGENCE CAPABILITY REPORTING METHOD AND APPARATUS
The embodiments of the present application provide an artificial intelligence (AI) capability reporting method and an apparatus. The method comprises: a first network device sends first information to a second network device, wherein the first information comprises first capability information, and the first capability information is used for indicating AI capability information related to the first network device.
Embodiments of the present application provide an AI/ML control method and apparatus. The method comprises: a terminal device receives indication information sent by a network device and used for indicating activation/deactivation/handover/fallback of an AI/ML functionality/model; and/or the terminal device reports to the network device reporting information for determining the activation/deactivation/handover/fallback of the AI/ML functionality/model.
H04L 41/16 - Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks using machine learning or artificial intelligence
H04W 24/02 - Arrangements for optimising operational condition
79.
METHOD AND APPARATUS FOR TRANSMITTING AND RECEIVING CHANNEL STATE INFORMATION AND COMMUNICATION SYSTEM
An apparatus for transmitting channel state information (CSI), applicable to a terminal equipment, includes: a first generator configured to generate at least a portion of information of channel state information (CSI) according to an artificial intelligence model; and first omitting processor circuitry configured to omit first information of the channel state information according to priority orders of the channel state information and/or first configuration information.
A donor device, applicable to a first IAB (integrated access and backhaul) donor-CU, includes: processor circuitry configured to configure or reconfigure first cell information served by a mobile IAB-DU of a mobile IAB node to avoid collision with one or more neighboring cells; wherein F1 connection of the mobile IAB-DU is terminated at the first IAB donor-CU; and a transmitter configured to transmit the first cell information to the mobile IAB-DU.
An uplink data transmitting device configured in a terminal equipment, wherein the terminal equipment is configured with two SRS resource sets, includes: a first receiver configured to receive third downlink control information for scheduling uplink data within a first application time, wherein at least part of the uplink data is within a second application time; and a first transmitter configured to determine to perform a first uplink data transmission based on a single transmission and reception point (sTRP) or perform a second uplink data transmission based on multiple transmission and reception points (mTRP) for the uplink data within the second application time, according to one or more parameters indicated by the third downlink control information; wherein the uplink data comprises at least one of uplink data types: an uplink repetition (PUSCH repetition) type A; an uplink repetition (PUSCH repetition) type B; or PUSCHs simultaneously transmitted with a multi-panel transmission scheme.
A memory drive device includes a memory, and a processor coupled to the memory and configured to when receiving a specific packet according to a connection standard specified in Computer eXpress Link (CXL), store data included as a part of the specific packet in a buffer and determine whether addresses included as the part of the specific packet together with the data are consecutive, when the addresses are consecutive, generate first information in which information of the addresses that are consecutive and information of the data associated with the addresses that are consecutive are aggregated, and notify a memory device of a write request of the data to the memory device, based on the first information and the communication standard when the data stored in the buffer is written to the memory device specified by a communication standard that does not support the CXL.
G06F 13/42 - Bus transfer protocol, e.g. handshakeSynchronisation
G06F 3/06 - Digital input from, or digital output to, record carriers
H04L 67/1097 - Protocols in which an application is distributed across nodes in the network for distributed storage of data in networks, e.g. transport arrangements for network file system [NFS], storage area networks [SAN] or network attached storage [NAS]
83.
OPTICAL RECEIVE DEVICE AND OPTICAL TRANSMISSION SYSTEM
An optical receive device includes a coherent receiver that outputs an electrical analog signal corresponding to an optical signal, a converter that converts the electrical analog signal into a digital signal, a scrambler that scrambles a differential group delay (DGD) of the digital signal, and an adjustment unit that receives the digital signal output by the scrambler as an input and adjusts one or both of a sampling frequency and a sampling phase of the converter based on a power envelope (PE) method.
A non-transitory computer-readable recording medium storing an information processing program for causing a computer to execute processing includes acquiring first information that includes information related to arrangement of a plurality of products in a store, acquiring second information that includes information that specifies one or a plurality of the products purchased by each of a plurality of customers, determining an estimation region in which each of the plurality of customers is estimated to have moved in the store based on the first information and the second information, and calculating an evaluation value for evaluation of how much the product is considered to have come into sight of the plurality of customers based on the first information and the estimation region.
An uplink data transmitting device, configured in a terminal equipment, wherein the terminal equipment is configured with a first SRS resource set and a second SRS resource set, includes: a receiver configured to receive downlink control information, and a transmitter configured to determine a layer number and one or more DMRS port(s) according to the downlink control information, and transmit uplink data in a first transmission scheme or a second transmission scheme; wherein, the downlink control information includes a first field and a second field, the first field includes a first indication field and/or a second indication field; in a case where the uplink data is transmitted in the first transmission scheme, a first layer number is determined according to the first indication field, and a second layer number is determined according to the second indication field.
H04L 5/00 - Arrangements affording multiple use of the transmission path
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
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
An information transceiving method and apparatus. The method includes: transmitting request indication information for acquiring a first reference signal set by a terminal equipment to a network device; and receiving a first reference signal in the first reference signal set transmitted by the network device; or, transmitting third resource configuration information by a network device to a terminal equipment, the third resource configuration information including a reference signal set identifier and identifiers of reference signals in the reference signal set; transmitting first reference signal set indication information to the terminal equipment; and transmitting a first reference signal in the first reference signal set to the terminal equipment.
H04L 5/00 - Arrangements affording multiple use of the transmission path
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
A signal reception apparatus, configured in a terminal equipment, includes: a receiver configured to: receive downlink control information, the downlink control information indicating two transmission configuration indication states, and receive a physical downlink control channel associated with one or two transmission configuration indication states within an application time of the two transmission configuration indication states.
An information processing device (100) calculates each state of a substance by quantum chemical calculation and on the basis of the value of a parameter for expressing each state of the substance, the calculation performed while changing the value of the parameter, and the information processing device calculates the energy of each state on the basis of each calculated state. At such time, in a coordinate system including an axis representing the energy of each state, the information processing device (100) sets the order for a group containing the energies of the calculated states, so that the closer to an origin-point a point corresponding to the group is, the higher the order of such group. On the basis of the set order and the value of the parameter corresponding to such order, the information processing device (100) changes the value of the parameter so that the order of the group containing the energies of the calculated states becomes higher.
G16C 10/00 - Computational theoretical chemistry, i.e. ICT specially adapted for theoretical aspects of quantum chemistry, molecular mechanics, molecular dynamics or the like
89.
INFORMATION PROCESSING PROGRAM, INFORMATION PROCESSING METHOD, AND INFORMATION PROCESSING DEVICE
The present invention efficiently determines whether or not there is a predetermined relationship between amino acids. This information processing device calculates, for each of a plurality of amino acid pairs that are two combinations each including amino acids from a plurality of amino acids, the distance between the combined amino acids. The information processing device then determines that the predetermined relationship is absent between the combined amino acids when the distance between the combined amino acids is greater than or equal to a threshold value. If the distance between the combined amino acids is less than the threshold value, the information processing device calculates the interatomic distance between an atom forming one amino acid of the combined amino acids and an atom forming the other amino acid, and determines whether the predetermined relationship is present or absent between the combined amino acids on the basis of the interatomic distance.
G16B 15/00 - ICT specially adapted for analysing two-dimensional or three-dimensional molecular structures, e.g. structural or functional relations or structure alignment
NIPPON TELEGRAPH AND TELEPHONE CORPORATION (Japan)
FUJITSU LIMITED (Japan)
Inventor
Tanaka Kenji
Arikawa Yuki
Muranaka Yusuke
Ito Tsuyoshi
Kawahara Takahiro
Miura Naoki
Sakamoto Takeshi
Danjo Takumi
Hayashi Nobuyuki
Shimizu Kozo
Yamaguchi Hisakatsu
Sakuyama Seiki
Abstract
This computer system comprises: PCIe devices (1-1 to 1-12) each having an NTB adapter for communication with other devices; an NTB switch (2); an OCS (3); and an OCS controller (4). The OCS controller (4): monitors device-to-device data flows via at least one of the NTB switch (2) and the OCS (3); identifies device-to-device communication that is a data flow bottleneck, on the basis of information relating to the data flows; determines a connection plan for optimizing the data flows; and instructs the PCIe devices (1-1 to 1-12) and the OCS (3) to change connections between the devices in accordance with the determined connection plan.
NIPPON TELEGRAPH AND TELEPHONE CORPORATION (Japan)
FUJITSU LIMITED (Japan)
Inventor
Tanaka Kenji
Arikawa Yuki
Muranaka Yusuke
Ito Tsuyoshi
Kawahara Takahiro
Miura Naoki
Sakamoto Takeshi
Danjo Takumi
Hayashi Nobuyuki
Shimizu Kozo
Yamaguchi Hisakatsu
Sakuyama Seiki
Abstract
This computer system is provided with route complexes (1-1 - 1-n), CPUs (2-1 - 2-n), a PCIe device, a circuit switch (7), and a controller (8). The controller (8) commands the CPUs (2-1 – 2-n) and the circuit switch (7) to: monitor data flows between the CPUs (2-1 - 2-n) and the PCIe device; identify, on the basis of information about the data flows, communication in which contention occurs in the circuit switch (7); determine a communication path optimization plan on the basis of the identified result; and change communication paths between the CPUs (2-1 - 2-n) and the PCIe device according to the communication path optimization plan.
NIPPON TELEGRAPH AND TELEPHONE CORPORATION (Japan)
FUJITSU LIMITED (Japan)
Inventor
Tanaka Kenji
Arikawa Yuki
Muranaka Yusuke
Ito Tsuyoshi
Kawahara Takahiro
Miura Naoki
Sakamoto Takeshi
Danjo Takumi
Hayashi Nobuyuki
Shimizu Kozo
Yamaguchi Hisakatsu
Sakuyama Seiki
Kitayama Seiji
Abstract
Provided is a computer system comprising: a CPU (10a); an OCS (2) that selectively connects PCIe devices (3-1 to 3-4) to PCIe lanes of the CPU (10a); an OCS controller (4); and a management control system (5) that, when the effective bandwidth of the PCIe lanes used by the PCIe devices (3-1 to 3-3) which are connected to the CPU (10a) is less than or equal to a threshold value, instructs the CPU (10a) to reduce the number of PCIe lanes used by said devices and instructs the OCS controller (4) to newly connect, to the PCIe lanes that have been made available, the PCIe devices (3-4) that are not connected to the CPU (10a).
According to an aspect of an embodiment, an optical amplification method may include identifying a first range of signal wavelengths that correspond to a first optical signal configured to propagate via an optical fiber. The method may further include generating a pumping signal having a range of pumping wavelengths, the range of pumping wavelengths based on a range of dispersion wavelengths, which correspond to the range of pumping wavelengths, not overlapping with the first range of signal wavelengths. The pumping signal may be provided to the optical fiber having the optical signal propagating thereon.
H01S 3/30 - Lasers, i.e. devices using stimulated emission of electromagnetic radiation in the infrared, visible or ultraviolet wave range using scattering effects, e.g. stimulated Brillouin or Raman effects
94.
RELAY DEVICE, BASE STATION DEVICE, AND RELAY METHOD
A relay device of relaying a signal received from a base station device to a terminal device includes: a controller configured to determine whether or not to perform relay processing of a first signal transmitted by a first base station device under control of the first base station device according to support information that indicates whether or not the first base station device has a control function of the relay device; and relay processor circuitry configured to perform the relay processing under the control of the first base station device in a case where the controller determines to perform the relay processing under the control of the first base station device, wherein the relay processing includes amplification and transfer processing of the first signal.
A donor device, applicable to an F1-terminating donor-CU of a mobile IAB node, includes: a receiver configured to receive first indication information, the first indication information comprising identity information related to a third donor-CU which is an RRC-terminating donor-CU after migration or radio link failure recovery of the mobile IAB node; and a transmitter configured to transmit second indication information for indicating a context of a traffic to the third donor-CU.
A conversion method executed by a computer, the conversion method includes acquiring skeleton information in which each of a plurality of joints included in a human body and coordinates for the plurality of joints is set, and reference posture information in which each of a plurality of joints included in a human body and reference coordinates for the plurality of joints is set, specifying a second joint that corresponds to a first joint set in the reference posture information from the plurality of joints set in the skeleton information, calculating a relative rotation angle from reference coordinates of the first joint to coordinates of the second joint, and converting the skeleton information into hierarchical structure data by setting the relative rotation angle to the hierarchical structure data.
Provided in the embodiments of the present application are an information processing apparatus and method, and a communication system. The information processing method comprises: determining that the minimum remaining time of uplink buffered data in a logical channel group is below a first threshold and that there is no pending delay status report associated with the logical channel group; and triggering a delay status report for the logical channel group.
An information transmitting/receiving method and apparatus. The method comprises: a terminal device receives a first configuration from a network device, wherein the first configuration is at least used for indicating that a first timing advance group (TAG) is associated with a first resource, the first TAG comprises a first serving cell of the terminal device, and the first resource is a resource of the first serving cell of the terminal device.
Provided in the embodiments of the present application are a multi-path processing method and apparatus, and a communication system. The method comprises: using a direct path and an indirect path to communicate with a network device; and triggering or sending a Uu BSR corresponding to the direct path and one BSR in an SL-BSR corresponding to the indirect path, or triggering or sending a first SR associated with the Uu BSR corresponding to the direct path and one SR in a second SR associated with the SL-BSR corresponding to the indirect path, or triggering or sending the first SR and the second SR, wherein the same SR configuration is used for the first SR and the second SR.
Embodiments of the present application provide an indication information receiving method and apparatus, an indication information transmitting method and apparatus, and a communication system. The indication information receiving apparatus is applied to a terminal device, the apparatus comprises a first processor, and the first processor controls the terminal device to perform the following operations: receiving a first configuration from a network device, wherein the first configuration is used for configuring conditional handover; receiving in a first serving cell first downlink control information (DCI) from the network device, wherein the first DCI comprises first information and/or second information, the first information is used for indicating sleep or shutdown information related to A serving cells of the terminal device, the second information is used for activating or deactivating cell discontinuous transmission or reception of B serving cells of the terminal device, and A and B are positive integers; and the terminal device performing an operation related to the conditional handover.
