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    • 1. 发明专利
    • Operation training support device, operation training support method and operation training support system
    • 操作培训支持设备,操作培训支持方法和操作培训支持系统
    • JP2014044336A
    • 2014-03-13
    • JP2012186952
    • 2012-08-27
    • Toshiba Corp株式会社東芝
    • YANAGAWA KOKIUETO AKITOMOYOKOYAMA HIDEMI
    • G09B9/00
    • PROBLEM TO BE SOLVED: To increase a proficiency effect of an operation training for a plant and the like.SOLUTION: An operation training support device according to an embodiment comprises: an image information DB 18 for storing image information on an apparatus and a facility; a signal information DB 19 for storing signal information; a training information DB 17 for storing training information with which at least one of the image information and the signal information is associated for respective training conditions JT; a display device 15 for displaying the image information and the signal information; and training condition determination means 11 for determining whether or not the training condition of the training information is satisfied on the basis of operation information acquired by referring to the training information stored in the training information DB 17.
    • 要解决的问题:提高对工厂等的操作训练的熟练度效果。解决方案:根据实施例的操作训练支持装置包括:图像信息DB 18,用于存储关于装置和设施的图像信息; 信号信息DB19,用于存储信号信息; 训练信息DB17,用于存储针对相应训练条件JT的图像信息和信号信息中的至少一个相关联的训练信息; 用于显示图像信息和信号信息的显示装置15; 以及训练条件确定装置11,用于基于通过参考存储在训练信息DB 17中的训练信息获取的操作信息来确定是否满足训练信息的训练条件。
    • 2. 发明专利
    • Method and system for optimizing plant operation schedule
    • 优化设备运行时间表的方法和系统
    • JP2005284388A
    • 2005-10-13
    • JP2004093281
    • 2004-03-26
    • Toshiba Corp株式会社東芝
    • IINO MINORUUETO AKITOMOHOSAKA SHUNJI
    • G05B13/02G05B13/04G06F19/00G06Q10/04G06Q50/00G06Q50/06G06F17/60
    • G05B13/042G05B13/048G06Q10/0631
    • PROBLEM TO BE SOLVED: To provide an optimum operation schedule rapidly and accurately with a small amount of calculation while taking into account an optimum operation pattern at the time of plant starting operation, and a cost at that time.
      SOLUTION: The system 10 for optimizing a plant operation schedule comprises a data inputting means 14 that transmits future planned operation value of one or more plants 11 to be controlled, an operation data inputting means 12 that transmits operation data of the plants 11 to be controlled, and an operation schedule calculation device 13 that inputs the planned operation value and the plant operation data from the inputting means 14 and 12, and implements an operation schedule optimization calculation of the plants 11 to be controlled. The operation schedule calculation device 13 comprises an optimization calculation device 17 that executes the optimization calculation of the operation schedule, and a database 18 in which kinds of operation modes of the plants 11 to be controlled, their operation patterns, and their operation costs corresponding to the operation modes are stored beforehand. The storage data stored in the database 18 are referred to for the operation schedule optimization calculation by the optimization calculation device 17.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:在考虑到工厂启动操作时的最佳操作模式以及当时的成本的同时,以少量的计算来快速准确地提供最佳操作计划。 解决方案:用于优化设备操作调度的系统10包括传送要被控制的一个或多个设备11的未来计划的操作值的数据输入装置14,传送设备11的操作数据的操作数据输入装置12 以及从输入装置14和12输入计划的操作值和植物操作数据的操作进度计算装置13,并且执行待控制的植物11的操作进度优化计算。 操作进度计算装置13包括执行操作时间表的优化计算的优化计算装置17和数据库18,其中要控制的工厂11的操作模式的种类,操作模式和与 预先存储操作模式。 存储在数据库18中的存储数据参考优化计算装置17的运行计划优化计算。版权所有:(C)2006,JPO&NCIPI
    • 4. 发明专利
    • Operation simulator
    • 操作模拟器
    • JP2011123187A
    • 2011-06-23
    • JP2009279554
    • 2009-12-09
    • Toshiba CorpToshiba Syst Technol Corp東芝システムテクノロジー株式会社株式会社東芝
    • UETO AKITOMOYANAGAWA KOKIMIYAZAWA OSAMU
    • G09B9/00G05B23/02
    • PROBLEM TO BE SOLVED: To provide an operation simulator that efficiently selects the initial state most close to the operation of an actual equipment among a plurality of candidates of initial state by using actual equipment data and accurately simulates the operational state or transient response of the actual equipment. SOLUTION: The simulator body 100 includes: an initial state storage means 111 storing a plurality of initial states required for calculation; a constant storage means 112 storing constant data; an initial state comparison means 115; a simulator calculation means 110 performing calculation which simulates responses of an actual plant 190 and an actual equipment monitor control device 191 based on the constant storage means and input data from an external monitor control means 101; and an operational data acquisition and storage means 114 acquiring and storing operational data. The initial state comparison means compares the plurality of initial states with the operational state of the actual equipment stored in the operational data acquisition and storage means, selects the initial state closest to the operational state of the actual equipment among the plurality of initial states stored in the initial state storage means, and performs calculation using the initial state. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种操作模拟器,其通过使用实际的设备数据有效地选择初始状态的多个候选中的最接近实际设备的初始状态,并且精确地模拟操作状态或瞬态响应 的实际设备。 解决方案:模拟器主体100包括:存储计算所需的多个初始状态的初始状态存储装置111; 存储恒定数据的恒定存储装置112; 初始状态比较装置115; 模拟器计算装置110执行基于恒定存储装置模拟实际装置190和实际装置监视控制装置191的响应的计算和来自外部监视器控制装置101的输入数据的计算; 以及操作数据采集和存储装置114获取和存储操作数据。 初始状态比较装置将多个初始状态与存储在操作数据采集和存储装置中的实际设备的操作状态进行比较,选择最接近存储在多个初始状态中的实际设备的操作状态的初始状态 初始状态存储装置,并且使用初始状态进行计算。 版权所有(C)2011,JPO&INPIT
    • 5. 发明专利
    • Plant optimum operation control system
    • 植物最佳操作控制系统
    • JP2009048524A
    • 2009-03-05
    • JP2007215602
    • 2007-08-22
    • Toshiba Corp株式会社東芝
    • MURAI MASAHIKOMURAYAMA MASARUUETO AKITOMOYAMADA TOSHIHIROTSUKAHARA HIDEKIOTSUKA HIROICHITANAKA MARIIWABUCHI KAZUNORI
    • G05B13/04G05B7/02G05B13/02G06F19/00G06Q10/04
    • PROBLEM TO BE SOLVED: To provide a plant optimum operation control system for minimizing operation costs while stably maintaining operation of a plant. SOLUTION: The plant optimum operation control system is provided with: an optimum operation point calculating means 3 of calculating an optimum operation point minimizing the operation costs of a private power generation plant 20, an automatic control means 9 of automatically controlling the plant on the basis of an optimization model according to the optimum operation point determined by calculation of the optimum operation point calculating means, an automatic control initiating means 5 of starting the automatic control operation of the private power generation plant by the automatic control means according to input, and an optimization variable selecting means 6 of selecting a variable of the private power generation plant in the optimization model. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种用于最小化操作成本的植物最佳操作控制系统,同时稳定地维持植物的操作。 解决方案:工厂最佳运行控制系统设有:计算最小化私人发电厂20的运行成本的最佳运行点的最佳运行点计算装置3,自动控制装置的自动控制装置9 根据由最佳操作点计算装置的计算确定的最佳操作点的优化模型,根据输入,通过自动控制装置启动私人发电厂的自动控制操作的自动控制启动装置5; 以及在优化模型中选择私人发电厂的变量的优化变量选择单元6。 版权所有(C)2009,JPO&INPIT
    • 6. 发明专利
    • Apparatus for calculating operating state of plant, computer for plant simulation, system and method for optimizing plant operation, and program
    • 用于计算植物操作状态的装置,用于植物模拟的计算机,用于优化植物操作的系统和方法以及程序
    • JP2005293169A
    • 2005-10-20
    • JP2004106528
    • 2004-03-31
    • Toshiba Corp株式会社東芝
    • OMOMO KAZUAKIIINO MINORUMITSUMOTO NORIFUMIYAMADA TOSHIHIROUETO AKITOMOTAKAGI YASUSHI
    • G05B23/02
    • PROBLEM TO BE SOLVED: To create a high-precision operating schedule that takes the actual demand of a plant and the performance of real equipment into consideration even if measurements for use involve sensor errors.
      SOLUTION: A plant state estimating part 200 calculates a current plant state estimate 201 and a previous plant state estimate 202 by correcting the errors of a current plant data state measurement 121 and a previous plant state measurement 122 according to constraint condition equations. A plant state/equipment parameter correcting part 300 calculates a current plate state correction 301, a future plant state correction 302, and an equipment parameter correction 303 on the basis of the current plant state estimate 201 and the previous plant state estimate 202 obtained by the plant state estimating part 200, a meteorological forecast value 130 input at a meteorological information input part 30 and a predicted demand value 151 obtained by a demand predicting part 50. An optimal operating schedule calculating part 70 calculates an optimal operating schedule 171 using the corrections 301-303.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:即使使用测量涉及传感器错误,创建一个可以考虑到工厂实际需求和实际设备性能的高精度运行时间表。 解决方案:工厂状态估计部分200通过根据约束条件方程校正当前工厂数据状态测量121和先前工厂状态测量122的误差来计算当前工厂状态估计201和先前工厂状态估计202。 工厂状态/设备参数校正部件300基于当前工厂状态估计201和由先前工厂状态估计202获得的当前板状态校正301,未来工厂状态校正302和设备参数校正303来计算当前板状态校正301, 植物状态估计部分200,在气象信息输入部分30输入的气象预测值130和由需求预测部分50获得的预测需求值151.最佳运行计划计算部分70使用校正301来计算最佳运行计划171 -303。 版权所有(C)2006,JPO&NCIPI
    • 7. 发明专利
    • Process operation planning system
    • 过程操作规划系统
    • JP2003295906A
    • 2003-10-17
    • JP2002097587
    • 2002-03-29
    • Toshiba Corp株式会社東芝
    • KAMIYA AKIMOTOTAKAYANAGI MIKIOKAIJI TOORUYAMADA TOSHIHIROTAKAGI YASUSHIUETO AKITOMO
    • G05B13/02G05B13/04
    • PROBLEM TO BE SOLVED: To provide a more precise solution even to a nonlinear target process, effectively solve a problem, and quickly conduct a precise process operation planning.
      SOLUTION: The process operation planning system conducts operation planning calculation of a target process such as a plant operation. The system is provided with a mixed integer formula model storing means 23 which stores a general characteristic of the target process, a nonlinear formula model storing means 25 which stores a detailed characteristic of the target process, a mixed integer formula model which is stored in the mixed integer formula model storing means, a general planning means 29 which calculates a general plan of the process operation, a detailed planning means 31 which calculates a detailed plan of the process operation based on the general plan calculated by the general planning means and the nonlinear formula model stored in the nonlinear formula model storing means, and a plan output means 32 which outputs the detailed plan calculated by this detailed planning means.
      COPYRIGHT: (C)2004,JPO
    • 要解决的问题:即使对非线性目标过程提供更精确的解决方案,有效解决问题,并快速进行精确的过程操作规划。

      解决方案:流程操作规划系统对工厂运营等目标流程进行运营计划计算。 该系统设置有存储目标处理的一般特性的混合整数公式模型存储装置23,存储目标处理的详细特征的非线性公式模型存储装置25,存储在目标处理中的混合整数公式模型 混合整数公式模型存储装置,计算处理操作的总体规划的总体规划装置29,详细规划装置31,其基于由总体规划装置计算的总体方案和非线性方程式计算处理操作的详细计划 存储在非线性公式模型存储装置中的公式模型,以及输出由该详细规划装置计算出的详细计划的计划输出装置32。 版权所有(C)2004,JPO

    • 8. 发明专利
    • Operation support device and program
    • 操作支持设备和程序
    • JP2008108087A
    • 2008-05-08
    • JP2006290658
    • 2006-10-26
    • Toshiba Corp株式会社東芝
    • UETO AKITOMOTSUKAHARA HIDEKIOTSUKA HIROICHIYAMADA TOSHIHIROSHINOHARA KAZUTAROMURAYAMA MASARU
    • G05B13/02
    • PROBLEM TO BE SOLVED: To enable offline calculation such as a case study at any time in addition to repetitive online calculation for a fixed period.
      SOLUTION: An input transfer means 16 acquires external operation data of a plant, an input switching means 21 switches which data of a plurality of input data is to be used based on the operation data from the data input transfer means 16 and constant data. An optimization calculation means 22 executes predetermined calculation based on the input data, and an output switching means 23 switches which of calculation results of the optimization calculation means 22 is to be output as output data. An execution management means 24 controls the switching of the input switching means 16 and the output switching means 19 and the execution of the optimization calculation means 22, and a man-machine display means 18 displays output data to be displayed of the output data switched and output by the output switching means 23.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:除了在固定时间段内重复的在线计算之外,还可以随时进行离线计算,例如案例研究。 输入转移装置16获取工厂的外部操作数据,输入切换装置21基于来自数据输入传送装置16的操作数据切换要使用的多个输入数据的数据,并且常数 数据。 优化计算装置22基于输入数据执行预定的计算,输出切换装置23将优化计算装置22的计算结果中的哪个输出作为输出数据。 执行管理装置24控制输入切换装置16和输出切换装置19的切换以及优化计算装置22的执行,人机显示装置18显示要显示的输出数据的输出数据被切换, 由输出切换装置23输出。版权所有(C)2008,JPO&INPIT
    • 10. 发明专利
    • Plant control device
    • 植物控制装置
    • JP2003303001A
    • 2003-10-24
    • JP2002107926
    • 2002-04-10
    • Toshiba Corp株式会社東芝
    • AKEHI TOYOHIROYAMADA TOSHIHIROUETO AKITOMO
    • G05B13/02G05B11/32
    • PROBLEM TO BE SOLVED: To stop and resume the learning of a neural network automatically and improve safety by coping with noises and disturbances. SOLUTION: A plant controller 16 for controlling the process variable of a plant to a prescribed target value, a neural network controller 12 which outputs an advanced control instruction value added as an addition signal to a control instruction value output from the plant controller, a learning method setting means 11 which sets a learning method based on an evaluation function 14 to be input into the neural network controller, and an advanced control limiting means 13 for imposing limitations on the advanced control instruction value are provided. COPYRIGHT: (C)2004,JPO
    • 要解决的问题:自动停止并恢复神经网络的学习,通过应对噪声和干扰来提高安全性。 解决方案:用于将工厂的过程变量控制到规定目标值的工厂控制器16,神经网络控制器12,其将作为相加信号添加的高级控制指令值输出到从工厂控制器输出的控制指令值 设置基于要输入到神经网络控制器的评价函数14的学习方法的学习方法设定单元11,以及对高级控制指示值施加限制的高级控制限制单元13。 版权所有(C)2004,JPO