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    • 2. 发明专利
    • Behavior inferring apparatus, threshold calculating apparatus, behavior inferring method, and behavior inferring program
    • 行为感觉设备,阈值计算设备,行为感染方法和行为感染程序
    • JP2014102709A
    • 2014-06-05
    • JP2012254748
    • 2012-11-20
    • Toshiba Corp株式会社東芝
    • UMENO SHINYASAKAMOTO YOSHIYUKISAKAMOTO HIDEOKOISO TAKASHIIMAHARA SHUICHIROARAGAKI TAKAOYANO TORUTAKEUCHI RYOSUKE
    • G06Q50/06G06Q10/00G06Q50/10
    • G06Q10/04G06N5/046G06Q50/06H02J3/00H02J4/00H02J2003/003H04B17/26H04B17/318
    • PROBLEM TO BE SOLVED: To provide a behavior inferring apparatus that can enhance the accuracy of inferring the behavioral state of a person as a consumer, and a threshold calculating apparatus, a behavior inferring method and a behavior inferring program for use in the behavior inferring apparatus.SOLUTION: A behavior inferring apparatus comprises: a storage unit that stores first data resulting from collection of a wattage consumed by each consumer for a prescribed period; a first calculating unit that, using the first data, calculates second data indicating a frequency corresponding to the magnitude of each wattage; a second calculating unit that calculates a first wattage threshold that discriminates, out of wattage corresponding to the maximum frequency of appearance in the second data, at least the first wattage and a second wattage next largest to the first wattage from each other; and an inferring unit that acquires the wattage consumed by each consumer in an inference period during which the behavioral state of the consumer is to be inferred and, using the wattage and the first wattage threshold, infers the behavioral state of the consumer during the inference period.
    • 要解决的问题:提供一种行为推断装置,其能够提高推断作为消费者的人的行为状态的准确性,以及用于行为推断装置的阈值计算装置,行为推断方法和行为推断程序 解决方案:一种行为推断装置,包括:存储单元,存储由每个消费者在规定时间段内消耗的瓦数的收集而产生的第一数据; 第一计算单元,使用所述第一数据计算指示与每瓦数的幅度对应的频率的第二数据; 第二计算单元,计算将与所述第二数据中的最大出现频率相对应的瓦数与所述第一瓦数相比最小的第一瓦数和第二瓦数分别进行判别的第一瓦数阈值; 以及推断单元,其在推断消费者的行为状态的推定期间获取每个消费者消耗的功率,并且使用瓦数和第一瓦数阈值在推理期间推断消费者的行为状态 。
    • 3. 发明专利
    • Process monitoring device
    • 过程监控设备
    • JP2012155361A
    • 2012-08-16
    • JP2011011238
    • 2011-01-21
    • Japan Sewage Works AgencyToshiba Corp日本下水道事業団株式会社東芝
    • NAGAIWA AKIHIROYAMANAKA OSAMUYAMAMOTO KATSUYAHIRAOKA YUKIOSAKAMOTO YOSHIYUKISANO KATSUMISASAKI MINORUHASHIMOTO TOSHIICHI
    • G05B23/02
    • PROBLEM TO BE SOLVED: To provide a process monitoring device capable of realizing operation for maintaining excellent performance through cost-saving operation, by using multiple abnormality diagnosis models to present an alarm of abnormality or a cause thereof.SOLUTION: A process monitoring device includes: a storage part 141 for storing process monitoring information; and an abnormality diagnosis model 142 that uses a correlation between data of the process monitoring information to detect an abnormality in a process or a sensor and to separate a cause by building an abnormality diagnosis model through a principal component analysis (PCA) that is one of correlation analysis methods and a discrete wavelet transform (DWT) that is one of time-frequency analysis methods. The process monitoring device uses the abnormality diagnosis model 142 in a plural manner, and uses multiple diagnosis results by the abnormality diagnosis models 142 to monitor a process.
    • 要解决的问题:提供一种能够通过节省成本的操作实现维持优异性能的操作的过程监视装置,通过使用多个异常诊断模型来呈现异常警报或其原因。 解决方案:过程监控设备包括:用于存储过程监控信息的存储部分141; 以及异常诊断模型142,其使用处理监视信息的数据之间的相关性来检测处理或传感器中的异常,并且通过构建异常诊断模型通过主成分分析(PCA)来分离原因,所述主成分分析 相关分析方法和离散小波变换(DWT),是时频分析方法之一。 过程监视装置以多种方式使用异常诊断模型142,并且通过异常诊断模型142使用多个诊断结果来监视处理。 版权所有(C)2012,JPO&INPIT
    • 4. 发明专利
    • Environment information processing system, method and program
    • 环境信息处理系统,方法和程序
    • JP2012059046A
    • 2012-03-22
    • JP2010202093
    • 2010-09-09
    • Toshiba Corp株式会社東芝
    • NAKAGAWA ATSUSHISAKAMOTO YOSHIYUKISHIROTA TAKAHIROSHIBATA YASUHIRO
    • G08G1/00G06Q50/30G07B15/06G08G1/01G08G1/04
    • PROBLEM TO BE SOLVED: To correspond to the necessity to realize a variety of and effective pricing in response to conditions such as a road condition in order to reduce environmental load by driving vehicles.SOLUTION: An environment information processing system includes an information collection unit, an information creation unit and an information provision processing unit. The information collection unit collects vehicle information on vehicles travelling on roads or traffic information on the roads. The information creation unit creates environmental pricing information for a specified road based on the vehicle information or the traffic information. The information provision processing unit creates information to be provided corresponding to the environmental load from the environmental pricing information created by the information creation means.
    • 要解决的问题:为了对应于为了通过驾驶车辆减少环境负荷而响应于诸如道路状况的条件实现各种有效的定价的必要性。 解决方案:环境信息处理系统包括信息收集单元,信息创建单元和信息提供处理单元。 信息收集单元收集道路上行驶的车辆或交通信息的车辆信息。 信息创建单元基于车辆信息或交通信息来创建指定道路的环境定价信息。 信息提供处理单元根据由信息创建装置创建的环境定价信息创建与环境负荷相对应的信息。 版权所有(C)2012,JPO&INPIT
    • 6. 发明专利
    • In-pipe communication system
    • 管内通信系统
    • JP2011061718A
    • 2011-03-24
    • JP2009212184
    • 2009-09-14
    • Toshiba Corp株式会社東芝
    • KOBAYASHI HIROYUKIKATAYAMA KYOSUKESAKAMOTO YOSHIYUKIYAMAMOTO KATSUYAKIMIJIMA KAZUHIKONAGAIWA AKIHIROKOBAYASHI YOSHITAKAAMINAKA SHIROHIRAOKA YUKIO
    • H04Q9/00E03F1/00H04M11/00
    • PROBLEM TO BE SOLVED: To implement in-pipe communication with which communication errors can be reduced and measurement data can be surely transferred with a data amount reduced.
      SOLUTION: In an in-pipe communication system, a measuring instrument comprises: a sensor section 5 for measuring a plurality of kinds of data relating to a status inside the pipe in accordance with a command from a center apparatus; an in-pipe radio communication section 1 for performing radio communication with a neighboring measuring instrument in an order of predetermined identification numbers; a data packet generating section 41 for generating a data packet with measurement data arranged after a repeat marker indicating kinds of a plurality of measuring means; and a transmission control section 42 for adding the data packet generated to a received data packet sent from another measuring instrument and transmitting the data packet to a next transmission destination. The center apparatus transmits a command controlling transmission of measurement data to each measuring instrument to control collection of measurement data via a termination measuring instrument, receives a data packet sent from a measuring instrument, and processes measurement data included in the data packet by kind.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:实现可以减少通信错误的管道内通信,并且可以确保在数据量减少的情况下传送测量数据。 解决方案:在管内通信系统中,测量仪器包括:传感器部分5,用于根据来自中心设备的命令测量与管道内的状态有关的多种数据; 管道内无线电通信部分1,用于按照预定的识别号码与相邻的测量仪器进行无线电通信; 数据分组生成部41,用于生成具有布置在指示多个测量装置的种类的重复标记之后的测量数据的数据分组; 以及发送控制部分42,用于将生成的数据分组与从另一测量仪器发送的接收数据分组相加,并将数据分组发送到下一个发送目的地。 中心设备将测量数据传输控制命令发送到每个测量仪器,以通过终端测量仪器控制测量数据的采集,接收从测量仪器发送的数据分组,并按类型处理数据分组中包含的测量数据。 版权所有(C)2011,JPO&INPIT
    • 7. 发明专利
    • In-pipe communication system
    • 管内通信系统
    • JP2011060134A
    • 2011-03-24
    • JP2009210907
    • 2009-09-11
    • Toshiba Corp株式会社東芝
    • KOBAYASHI HIROYUKIKATAYAMA KYOSUKESAKAMOTO YOSHIYUKIYAMAMOTO KATSUYAKIMIJIMA KAZUHIKONAGAIWA AKIHIROKOBAYASHI YOSHITAKAAMINAKA SHIROHIRAOKA YUKIO
    • G08C19/00F16L55/00G08C17/00H04M11/00H04Q9/00
    • PROBLEM TO BE SOLVED: To communicate highly reliable measurement data in real time. SOLUTION: An in-pipe communication system includes a plurality of measuring instruments installed in a pipe, wherein an end measuring instrument of a plurality of blocks composed of the measuring instruments is connected with a center device. The measuring instrument includes a sensor 5 for measuring data about a state in a pipe, an in-pipe radio communication unit 1 for transmitting measurement data of the sensor 5 together with an identifier unique to the instrument to the other measuring instruments in a block by radio and receiving measurement data from the other measuring instruments in the block, and a transmission control unit 42 for performing control so as to add the measurement data of the instrument to the received measurement data to sequentially transmit them to an initial measuring instrument first, and the end measuring instrument includes a data tabulator for accumulating the received measurement data on the basis of the identifier, and a ground radio communication unit 9 for transmitting accumulated data of the data tabulator to the center device. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:实时传达高度可靠的测量数据。 管路通信系统包括安装在管道中的多个测量仪器,其中由测量仪器组成的多个块的端部测量仪器与中心装置连接。 测量仪器包括用于测量关于管道中的状态的数据的传感器5,用于将传感器5的测量数据连同仪器特有的标识符一起发送到块中的其它测量仪器的管内无线电通信单元1, 无线电和接收来自该块中的其他测量仪器的测量数据;以及传输控制单元42,用于执行控制,以将仪器的测量数据添加到所接收的测量数据中,以将其顺序地发送到初始测量仪器;以及 终端测量仪器包括用于基于标识符累积接收到的测量数据的数据制表器,以及用于将数据制表器的累积数据发送到中心设备的地面无线电通信单元9。 版权所有(C)2011,JPO&INPIT
    • 8. 发明专利
    • Plant operation control device
    • 植物操作控制装置
    • JP2006236226A
    • 2006-09-07
    • JP2005053187
    • 2005-02-28
    • Toshiba Corp株式会社東芝
    • YOKOGAWA KATSUYASAKAMOTO YOSHIYUKISUZUKI HIROYUKI
    • G05B13/04G05B13/02
    • PROBLEM TO BE SOLVED: To provide a plant operation control device capable of appropriately adjusting parameters of a process model in response to a change in process structure of an object plant by secular change by seasonal fluctuation, replacement of plant equipment or the like, thus improving control performance such as flow control or water quality control related to the plant equipment.
      SOLUTION: A process operation quantity and a process state quantity are measured by a process state measuring means 12, and these process operation quantity and process state quantity are stored in a process state storage means 13. In a human interface means 14, a step response start time T1 is inputted, and setting of a process operation quantity target value is performed. A model parameter identification means 15 performs identification of model parameters K, T and L of the process model from step-like change of the stored process operation quantity based on the step response start time T1.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种能够根据季节性波动的长期变化,植物设备等的更换,响应于对象植物的处理结构的变化来适当地调整过程模型的参数的植物操作控制装置 ,从而提高与工厂设备相关的流量控制或水质控制等控制性能。 解决方案:处理操作量和处理状态量由处理状态测量装置12测量,这些处理操作量和处理状态量被存储在处理状态存储装置13中。在人机界面装置14中, 输入阶跃响应开始时刻T1,进行处理运算量目标值的设定。 模型参数识别装置15基于阶跃响应开始时间T1,对存储的处理操作量的阶梯式改变来执行过程模型的模型参数K,T和L的识别。 版权所有(C)2006,JPO&NCIPI
    • 9. 发明专利
    • Reclaimed water supply equipment
    • 再生水供应设备
    • JP2006035012A
    • 2006-02-09
    • JP2004214437
    • 2004-07-22
    • Toshiba Corp株式会社東芝
    • YOKOGAWA KATSUYASAKAMOTO YOSHIYUKIKURIHARA CHIYOUKOHATSUKA YUKIO
    • C02F1/50C02F1/76
    • PROBLEM TO BE SOLVED: To provide reclaimed water supply equipment having a hypochlorite injection control system capable of holding the concentration of a residual chlorine in reclaimed water, which is supplied to reclaimed water utilizing equipment, to a set value or above.
      SOLUTION: Since the correlation of the concentration of residual chlorine in sent water and the concentration of residual chlorine in return water is calculated using an operation means 24 of the proper concentration of residual chlorine in sent water while the target value of the concentration of residual chlorine in sent water for obtaining the target concentration of residual chlorine in return water is calculated based on the correlation and the injection of a hypochlorite is controlled by a hypochlorite injection control means 25, the concentration of residual chlorine in the reclaimed water supplied to the reclaimed water utilizing equipment 16 can be certainly held to a prescribed value or above.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供具有次氯酸盐注入控制系统的回收供水设备,其能够将供应给再循环水的设备中的回收水中的残留氯浓度保持在设定值以上。 解决方案:由于送水中残留氯浓度与回水中残留氯浓度之间的相关关系是利用送水中适当浓度的残留氯的操作装置24计算的,而浓度的目标值 根据相关性计算送回水中残留氯的残余氯,以回收水中的残留氯的目标浓度,通过次氯酸盐注入控制装置25控制次氯酸盐的注入,供给到回收水中的残留氯浓度 回收水利用设备16可以肯定地保持在规定值以上。 版权所有(C)2006,JPO&NCIPI
    • 10. 发明专利
    • Plant operation optimizing device
    • 植物操作优化装置
    • JP2006018363A
    • 2006-01-19
    • JP2004192716
    • 2004-06-30
    • Toshiba Corp株式会社東芝
    • SAKAMOTO YOSHIYUKIYAMAZAKI KENICHIYAEGASHI ATSUSHI
    • G05B13/02G06N3/00
    • PROBLEM TO BE SOLVED: To provide a plant operation optimizing device for creating an operation plan in a short time by quickly operating genetic algorithm. SOLUTION: A plant operation optimizing device 10 is configured to control a plant where a plurality of plant facilities are connected from the upstream side to the downstream side, and at least a pair of plant facilities are arranged in parallel based on a preliminarily created operation plan. An operation planning means 14 prepares the optimal operation plan related with each plant facility by using a genetic algorithm including a formulating function 24. When water is distributed from one plant facility to a pair of plant facilities arranged in parallel at the downstream side, the operation planning means 14 executes the formulating function 24 of the genetic algorithm based on information related with a water distribution quantity rate from one plant facility to a pair of plant facilities at the downstream side to be transmitted from a multi-distribution process formulating means 18. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种用于通过快速运行遗传算法在短时间内创建操作计划的工厂操作优化装置。 解决方案:设备操作优化装置10被配置为控制从上游侧到下游侧连接多个设备设备的设备,并且至少一对设备设备基于初步设置 创建运营计划。 操作规划装置14通过使用包括制定功能24的遗传算法来准备与每个工厂设施相关的最佳操作计划。当水从一个工厂设备分配到在下游侧并行设置的一对工厂设备时,操作 规划装置14基于与从多个分配处理制定装置18发送的下游侧的从一个工厂设施到一对工厂设施的配水量速率相关的信息来执行遗传算法的制定功能24。 P>版权所有(C)2006,JPO&NCIPI