44 results about "Requirements determination" patented technology

A mobile terminal (200) comprises an application execution unit (240) configured to execute an application program; an access control rule management unit (270) configured to retain an access control rule defining whether the application program has an access authorization to a confidential resource in the mobile terminal and a determining unit; an access control rule query unit (220) configured to acquire, from an external device, the access control rule by designating at least one of an identifier of a user identity module installed in the mobile terminal and an identifier of the mobile terminal, and to retain the acquired access control rule in the access control management unit; a query requirement determination unit (260) configured to determine whether to update the access control rule when the application program makes an access to the confidential resource, and to update the access control rule; an authorization management unit (230) configured to determine whether the application program has the access authorization based on the access control rule; and a confidential resource management unit (250) configured to determine whether to permit an access request to the confidential resource by the application program, based on a result of the determination of the authorization management unit (230).

A breeding support system including at least one information terminal for processing breeding information associated with breeding work of at least one individual breeding object, the system comprising: individual information collecting means for collecting individual information indicating a time-variable change of an individual condition of the individual breeding object; specified breeding work requirement determination means for determining a requirement for a specified breeding work from among all breeding work in accordance with a profile of the time-variable change of the individual condition; breeding guidance generation means for generating at least one breeding guidance announcing a requirement of the specified breeding work determined; and breeding guidance supply means for supplying the generated breeding guidance as the breeding information to the information terminal.

The energy-saving operation of dishwashers (110; 410) plays an important role, in particular for larger enterprises, e.g. for the canteens of hospitals or large enterprises, and in the medical disinfection field. The invention thus discloses a method and a device, in which a total maximum electric output is assigned to a group of electric consumer elements (14, 15, 18, 19, 22, 23, 26, 33; 418, 420, 432, 438) of a dishwasher (110; 410). In addition, at least two output levels are assigned to each electric consumer element (14, 15, 18, 19, 22, 23, 26, 33; 418, 420, 432, 438) of said group. An optimum combination of output levels is then selected in a requirement determination step, based on an operational state B of the dishwasher (119), whereby for each consumer element (14, 15, 18, 19, 22, 23, 26, 33; 418, 420, 432, 438) the selected output level is adapted to the output requirement of the consumer element (14, 15, 18, 19, 22, 23, 26, 33; 418, 420, 432, 438) in operational state B and the total output of all consumer elements (14, 15, 18, 19, 22, 23, 26, 33; 418, 420, 432, 438) does not exceed the maximum electric total output. The operation of the dishwasher (110; 410) can also be divided into three phases, a start phase, an activation phase and a load control phase. The output levels of the individual consumer elements (14, 15, 18, 19, 22, 23, 26, 33; 418, 420, 432, 438) are optimally adapted in accordance with the requirements in said operating phases, thus allowing a response to be made to any fluctuations in the operational state. The inventive method permits significant energy savings to be made in comparison to conventional methods for controlling dishwashers (110; 410) and leads to a more rapid attainment of a ready status of the dishwasher (110; 410) upon activation.

The invention discloses a shift-arrangement system, which comprises an overflow priority matrix determination device which is used to generate a skill-group overflow priority matrix, an overflow priority model artificial device which is connected with the overflow priority matrix determination device and is used to optimize the skill-group overflow priority matrix generated by the overflow priority matrix determination device, a manpower requirement determination device, a traffic analysis and prediction device, and a client representative shift-arrangement device. In addition, the invention also discloses a shift-arrangement method. Through the invention, the equation-solved efficiency can be increased under the circumstances of skill shift-arrangement and route model size increasing, at the same time, the shift-arrangement under the circumstance of combining a plurality of techniques and a route model can be achieved.

The positioning a block of data within a storage hierarchy. For the given block of data, demand statistics are accumulated for each of multiple time periods by evaluating input/output operations on the block of data during the time period and assigning a resulting demand value to the time period for that time period. This is done for multiple time periods so that the accumulated demand for a given point of time may be calculated using the assigned demand values for the previous time periods. The accumulated demand may then be used to determine a level in the storage hierarchy that the block of data should be placed. This allows for the more in-demand memory blocks to be placed in higher in the storage hierarchy. Thus, the principles described herein allow for efficient use of computing resources.

The invention discloses a power capacity allocation method of a grid-connected microgrid. The method comprises the steps of (A) building a wind turbine model, a photovoltaic cell model and a storage battery model in the grid-connected microgrid; (B) building a capacity design optimization objective function model, wherein a capacity design optimization objective function comprises annual average composite cost C<ACT> and a self-equilibrium coefficient SSR; (C) solving the capacity design optimization objective function by using a stochastic simulation-based NSGA-II algorithm to obtain a pareto frontier; and (D) selecting a preferred plan meeting the design requirements from the pareto frontier by using a utility theory. According to the power capacity allocation method, the economy and the self-powered capability are taken into account while the wind and light output uncertainty is considered, and the optimum numbers of wind turbines, photovoltaic cells and storage batteries can be determined according to the design requirements.

A power transmission device of a work vehicle includes a generator, a motor, and an energy storage unit. The energy storage unit stores electricity generated by the generator. A forward/backward travel switch operation device receives an instruction for forward or backward travel from an operator. A vehicle speed detection unit detects the speed of the vehicle. A control unit includes an energy management requirement determination unit. The energy management requirement determination unit determines, on the basis of the difference between a target electricity storage amount and a current electricity storage amount in the energy storage unit, the energy management required power required by the power transmission device for charging the energy storage unit. The energy management requirement determination unit increases the target electricity storage amount when a first travel direction according to the instruction and a second travel direction determined from the vehicle speed are different.

Provided is an exhaust gas processing device for a diesel engine which can carry out sufficient regeneration processing of a DPF. A DPF regeneration control section continues normal regeneration processing by a DPF regeneration control section when an accelerated regeneration starting operation section does not perform accelerated regeneration starting operation after notification of accelerated regeneration requiring information is started. The DPF regeneration control section prohibits the normal regeneration processing, and an accelerated regeneration re-requirement notification section starts notification of accelerated regeneration re-requiring information, when a PM accumulation amount estimate becomes equal to or higher than an accelerated regeneration re-requirement determination value J4. Thereafter, the regeneration processing of the DPF is not carried out unless the accelerated regeneration starting operation section starts the accelerated regeneration starting operation to cause the DPF regeneration control section to carry out the accelerated regeneration processing by the DPF regeneration section.

The invention provides a vehicle control unit based on a torque model. The vehicle control unit comprises a torque requirement determination unit, an engine loss torque determination unit, an engine efficiency loss determination unit, an air throttle model selection unit, an air model selection unit, an air-fuel ratio model selection unit and an ignition advance angle determination unit. In addition, the vehicle control unit further comprises a matching calibration unit. According to the vehicle control unit based on the torque model, control on an engine torque can be realized based on an established model, and the driving requirement of a vehicle can be met.

The invention relates to a thermal power generation unit real-time dispatching requirement determination method considering maximum new energy utilization, and belongs to the technical field of operation and control of a new energy access power system. The method comprises the steps of starting data acquisition for one time at the current moment; calculating the real-time power generation requirement of the current power grid; calculating the output regulation requirement of the current automatic control unit obtained under different conditions in real time; calculating the regulation requirement of the current call wire power obtained under different conditions in real time; and finally obtaining the real-time dispatching requirement of the thermal power generation unit of the power system considering the maximum new energy utilization, and carrying out corresponding real-time dispatching on the thermal power generation unit of the power system under different conditions in real time. According to the method, the maximum new energy power generation utilization is taken as the target, so that the power system can arrange the thermal power generation unit output in advance according to the new energy power generation operating state and the power grid operating state in real time so as to fully develop the power grid regulation capacity and ensure that the power grid has enough regulation space to utilize the new energy.

Systems and methods are provided for calculating margin requirements and stress testing exposures of cleared credit portfolios. These margin requirements are calculated using the following components: spread risk, idiosyncratic risk, interest rate, and liquidity risk. The calculation of these risk components is accomplished with a detailed statistical analysis of the risk factors underlying instruments, such as a credit default swap instrument.

The invention relates to a bank microservice-based software test analysis method, which comprises the following steps of: A, dividing test analysis of a bank system into four object dimensions, namelya product scene layer, a user scene layer, a microservice layer and an interface layer, according to a product of a bank, a user group and an architecture of the bank system; b, decomposing all the functional logics of each layer into minimum units, sorting out all test points, forming father/child nodes by the test points in each layer, and then respectively establishing an element hierarchy tree; c, determining the type of a test analysis model needing to be established according to actual test requirements; d, according to the determined types of the test analysis models, nodes under the element level trees are combined in a crossed mode to form the corresponding test analysis models. According to the method, the test analysis is easier under the conditions of huge number of bank software systems and complex business logic at present, the test requirements can be comprehensively covered, and the test range can be well evaluated.

The invention relates to a method of automatic generation of internet-of-things data process flow based on RFID (radio frequency identification). The method manly includes the steps of firstly, allowing for man-machine interaction to generate RFID data process flow, determining the required process according to needs, finally determining atomic processes of data processing, and sorting the atomic processes to obtain an atomic process sequence, configuring the number of the atomic processes according to resource conditions, and correlating the process to obtain a complete data process flow chart; secondly, automatically generating basic constraint conditions, automatically generating three constraint conditions, including cross-process item number constraint, item inclusion relation constraint and cross-process timing constraint, according to the generated data process flow chart; and thirdly, checking data completeness, namely checking the completeness of RFID data in real time, and sending out alarm in case of checked anomaly.

The relationship between polishing conditions constituting elements and the worked shape (amount of polishing) obtained by means of these polishing conditions is input beforehand into polishing condition determining means along with the type of the object of polishing, and polishing conditions (invariable polishing conditions) that are used in common for the polishing of this object of polishing. The polishing condition determining means determine the polishing conditions on the basis of these conditions. Specifically, the above-mentioned polishing conditions constituting elements are given in a time series, or combinations of the above-mentioned polishing conditions constituting elements are converted into variations in the swinging velocity of the polishing body, and the swinging velocity corresponding to the swinging position is determined. The polishing apparatus control means input the polishing conditions determined by the polishing condition determining means, and control the polishing apparatus so that these polishing conditions are realized. As a result, working conditions for obtaining a specified worked shape in a working apparatus can be simply and accurately determined.

A feeder terminal comprises backhaul communication circuitry to connect to a communications network via a wireless backhaul, and provide an access base station with access to the wireless backhaul. Backhaul information circuitry determines congestion information relating to the wireless backhaul and communication circuitry enables communication with an access base station and provides the congestion information to the access base station. In response to a demand message from the access base station comprising quality of service requirements, the communication circuitry forwards the demand message to the communications network. Additionally, an access base station comprises communication circuitry to enable communication with a feeder terminal. Backhaul communication circuitry connects to acommunications network via a wireless backhaul provided by the feeder terminal, and provides the user equipment with access to the wireless backhaul. Requirement determination circuitry determines atleast one quality of service requirement from the user equipment; and access control circuitry selectively controls usage of the wireless backhaul by the user equipment. The communication circuitry provides a quality of service demand message to the feeder terminal based on the at least one quality of service requirement and receives congestion information relating to the wireless backhaul from the feeder terminal. The access control circuitry controls usage of the wireless backhaul by the user equipment in dependence on the congestion information.

A device, system, and method determines a reading environment by synthesizing downstream needs. The method at a workflow server includes receiving a request from a physician device utilized by a referring physician, the request directed to performing an imaging procedure. The method includes determining at least one normalized need from the request, the normalized need corresponding to the referring physician. The method includes generating information to be included in a reading environment based on the at least one normalized need, the information assisting an image interpreter in interpreting the imaging procedure.

The present invention is an energy management system (101) for an electric power consumer that maintains a distributed power supply, wherein the power management system (101) is provided with: an interchange request preparation unit (201) for preparing an interchange request that includes an interchange request amount; an interchange requirement determination unit (202) for calculating an interchange requirement on the basis of the interchange request amount; a transceiver (103) for transmitting the interchange request amount and the interchange requirement to another energy management system;an interchange negotiation counterpart determination unit (203) for determining an interchange negotiation counterpart on the basis of the received interchange requirement; an interchange response determination unit (204) for calculating a possible interchange amount for each negotiation counterpart on the basis of the received interchange request amount, and transmitting the possible interchangeamount via the transceiver (103); and an interchange plan determination unit (205) for determining an interchange plan on the basis of the received possible interchange amount and the interchange request amount of the host unit.

The invention discloses a design method of a super-resolution imaging system, which comprises the following steps: firstly, selecting a detector in the super-resolution imaging system, determining a pixel size p, and obtaining a focal length f of an optical lens; determining the performance factor Eta of improvement of the multiple of the super-resolution imaging system according to the requirements, wherein the improvement of the multiple is shown in the description, and obtaining the F# number of the optical lens in the super-resolution imaging system; calculating to obtain the imaging signal-to-noise ratio SNR of the super-resolution imaging system, and checking whether or not the F# number meets the requirement of the imaging signal-to-noise ratio index; if the index requirement is met, obtaining the aperture D of the optical lens in the super-resolution imaging system, and further obtaining the design parameters of the optical lens; using the super-resolution imaging system for observing a target to be detected for a plurality of times and forming an image sequence yk of the target to be detected; substituting the image sequence yk into a super-resolution reconstruction equation, and solving the super-resolution reconstruction equation according to the minimum relative entropy to obtain a super-resolution imaging result. The design method of the super-resolution imaging system can make the system give full play to the advantages of super-resolution imaging, thereby achieving system-level optimization design.