会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • METHOD AND APPARATUS FOR POLYMORPHING A PLURALITY OF SETS OF DATA
    • 用于聚合数据集的多项式的方法和装置
    • US20090244098A1
    • 2009-10-01
    • US12411658
    • 2009-03-26
    • Masahiko TATEISHI
    • Masahiko TATEISHI
    • G09G5/00
    • G09G5/39G06T3/0093G06T13/80G06T2210/44G09G5/363G09G2340/10G10L21/00G10L2021/0135
    • 2M-sets of model data strings (M is a positive integer and M≧2) are polymorphed. The model data strings are acquired by defining at least 2M-piece coordinates being morphed in a M-dimensional model-data mapping space and making the defined model data strings correspond to the coordinates being morphed, respectively. A unit cell is set in the space. The unit cell consists of a hyper rectangular parallelepiped having 2M-piece vertexes each located at the coordinates being morphed. A desired coordinate is set, as a morphing-destination coordinate, within the unit cell. The 2M sets of model data strings corresponding, set by set, to the coordinates being morphed are polymorphed using weighting factors depending on distances from the respective coordinates being morphed to the morphing-destination coordinate in the unit cell. Accordingly, a string of synthesized data corresponding to the morphing-destination coordinate is produced. The string of synthesized data is outputted using an outputting device.
    • 模型数据串(M为正整数,M> = 2)的2M组被变形。 模型数据串是通过定义在M维模型 - 数据映射空间中变形的至少2M个零件坐标并且使所定义的模型数据串分别对应于正在变形的坐标来获取的。 一个单元格被设置在空间中。 单元单元由具有2M片顶点的超长方体组成,每个顶点位于正在变形的坐标处。 作为变形目的地坐标,在单位单元内设置所需的坐标。 通过设置设置的与设定的坐标对应的2M组模型数据串,使用加权因子进行变形,这取决于来自被变形的相应坐标的距离到单位单元中的变形 - 目的地坐标。 因此,产生与变形 - 目的地坐标相对应的一串合成数据。 使用输出装置输出合成数据串。
    • 3. 发明授权
    • Method and device for controlling equipment based on multiple-input/one-output control
    • 基于多输入/单输出控制的设备控制方法和装置
    • US08103365B2
    • 2012-01-24
    • US12184538
    • 2008-08-01
    • Masahiko Tateishi
    • Masahiko Tateishi
    • G05B13/02B60H1/00F24F7/00
    • G05B17/02
    • Combined control patterns corresponding to the actual control coordinates point (px) are formed by morphing a shape of the model control patterns PA, PB, PC having J pieces and corresponding to each morphing coordinates (pa, pb, pc), in the control pattern space CPS extended by the second type of input variable β and the output variable α. The morphing is performed according to weight between the morphing coordinates (pa, pb, pc) in the M-dimensional input space MPS and the actual control coordinates point (px). Combined control patterns Px are formed, and output variable value α corresponding to the input value (px) based on the combined control pattern Px is calculated.
    • 通过使具有J个部件的模型控制模式PA,PB,PC的形状对应于控制模式中的每个变形坐标(pa,pb,pc)来形成与实际控制坐标点(px)相对应的组合控制模式 空间CPS由第二类输入变量&bgr扩展; 和输出变量α。 根据M维输入空间MPS中的变形坐标(pa,pb,pc)和实际控制坐标点(px)之间的重量进行变形。 形成组合控制图案Px,并且计算出基于组合控制图案Px对应于输入值(px)的输出变量值α。
    • 5. 发明授权
    • Apparatus and method for calculating an air-conditioning system controlled variable
    • 用于计算空调系统控制变量的装置和方法
    • US06498958B1
    • 2002-12-24
    • US09494142
    • 2000-01-28
    • Masahiko TateishiKatsuhiko SamukawaTakayoshi Kawai
    • Masahiko TateishiKatsuhiko SamukawaTakayoshi Kawai
    • G05B1302
    • G05B13/024
    • A controlled variable-calculating apparatus and method that can easily calculate a controlled variable from one or more input variables and that can appropriately learn control characteristics for the calculation of the controlled variable. The control characteristics are represented as a surface embedded in an (n+1)-dimensional space, and are used to control one controlled variable from n variables. The control characteristics are approximated by an assemblage of flat planes corresponding to subspaces obtained by dividing an n-dimensional input space. For example, a two-dimensional input space defined by the interior temperature and the amount of sunlight is divided into 15 subspaces. Flat planes 1-15 are made to correspond to the subspaces, respectively. If the interior temperature and the amount of sunlight are entered, a decision is made as to which subspace the environmental conditions belong. The airflow is then calculated using an equation for any one of the flat planes 1-15. If the airflow is needs to be modified, the equation for the flat plane corresponding to the corresponding subspace is updated.
    • 一种受控变量计算装置和方法,其可以容易地从一个或多个输入变量计算受控变量,并且可以适当地学习用于计算受控变量的控制特性。 控制特性表示为嵌入在(n + 1)维空间中的表面,用于控制来自n个变量的一个受控变量。 通过对应于通过划分n维输入空间获得的子空间的平面平面的组合近似控制特性。 例如,由室内温度和阳光量定义的二维输入空间被分成15个子空间。 平面1-15分别对应于子空间。 如果进入室内温度和阳光量,则决定环境条件属于哪个子空间。 然后使用任何一个平面1-15的等式计算气流。 如果需要修改气流,则更新对应于相应子空间的平面方程。
    • 7. 发明申请
    • METHOD AND DEVICE FOR CONTROLLING EQUIPMENT BASED ON MULTIPLE-INPUT/ONE-OUTPUT CONTROL
    • 用于控制多输入/单输出控制的设备的方法和装置
    • US20090037002A1
    • 2009-02-05
    • US12184538
    • 2008-08-01
    • Masahiko Tateishi
    • Masahiko Tateishi
    • G05B13/04G05D23/00
    • G05B17/02
    • Combined control patterns corresponding to the actual control coordinates point (px) are formed by morphing a shape of the model control patterns PA, PB, PC having J pieces and corresponding to each morphing coordinates (pa, pb, pc), in the control pattern space CPS extended by the second type of input variable β and the output variable α. The morphing is performed according to weight between the morphing coordinates (pa, pb, pc) in the M-dimensional input space MPS and the actual control coordinates point (px). Combined control patterns Px are formed, and output variable value a corresponding to the input value (px) based on the combined control pattern Px is calculated.
    • 通过使具有J个部件的模型控制模式PA,PB,PC的形状对应于控制模式中的每个变形坐标(pa,pb,pc)来形成与实际控制坐标点(px)相对应的组合控制模式 空间CPS由第二类输入变量β和输出变量α扩展。 根据M维输入空间MPS中的变形坐标(pa,pb,pc)和实际控制坐标点(px)之间的重量进行变形。 形成组合的控制图案Px,并且计算出基于组合控制图案Px对应于输入值(px)的输出变量值a。
    • 9. 发明申请
    • Speech information service system and terminal
    • 语音信息服务系统和终端
    • US20060173689A1
    • 2006-08-03
    • US11210857
    • 2005-08-25
    • Nobuo HataokaIchiro AkahoriMasahiko TateishiTeruko MitamuraEric Nyberg
    • Nobuo HataokaIchiro AkahoriMasahiko TateishiTeruko MitamuraEric Nyberg
    • G10L21/00
    • H04M3/4938G01C21/3608G10L15/26H04M1/271
    • An object of the present invention is to provide a user interface method and a device capable of arbitrarily and efficiently performing the dialog through the speech input in an in-vehicle information service system, and a system configuration which can cope with network connection loss with a center is also provided. In addition, the present invention provides the system configuration in which access from a terminal to the center is not always performed but can be performed arbitrarily according to needs. As a terminal-side configuration, a flexible dialog management unit and a task management unit for performing application management are separated from each other. Furthermore, the terminal configuration has a four-tier structure of a user interface, dialog management, task management, and applications. In addition, means for fetching application information from the center in accordance with needs is provided.
    • 本发明的目的是提供一种能够通过车载信息服务系统中的语音输入来任意地且有效地执行对话的用户界面方法和装置,以及能够利用 还提供中心。 此外,本发明提供了从终端到中心的接入不总是被执行但可以根据需要任意执行的系统配置。 作为终端侧配置,用于执行应用管理的灵活对话管理单元和任务管理单元彼此分离。 此外,终端配置具有用户界面,对话管理,任务管理和应用的四层结构。 另外,提供了根据需要从中心获取应用信息的装置。
    • 10. 发明授权
    • Verification method of neural network and verification apparatus thereof
    • 神经网络的验证方法及其验证装置
    • US06466924B1
    • 2002-10-15
    • US09323107
    • 1999-06-01
    • Masahiko TateishiShinichi Tamura
    • Masahiko TateishiShinichi Tamura
    • G06F1518
    • G06N3/02
    • A verification method and a verification apparatus of a neural network for guaranteeing the operation of the neural network to any input signals which might be inputted. The neural network verification apparatus comprises a data file storage section for storing a verification data file DFK concerning on the structure of the neural network to be verified, a network structuring section for structuring a neural network NET to be verified by reading the neural network data file DFN from the data file storage section, an input data generating section for generating initial interval input vector database DBI by reading the verification data file DFK from the data file storage section, a verification executing section for executing the verification of the neural network NET based on the neural network NET structured by the network structuring section and the initial interval input vector database DBI created by the input data generating section and for generating a verification result database DBO based on the verification result, and others. The verification apparatus generates an interval input vector signal per input signal subspace which is obtained by dividing an input signal space formed by the input signal to the neural network NET into a plurality of input. signal subspaces and accumulates them in a stack.
    • 一种神经网络的验证方法和验证装置,用于保证神经网络对可能输入的任何输入信号的操作。 神经网络验证装置包括:数据文件存储部分,用于存储关于待验证的神经网络的结构的验证数据文件DFK;网络结构部分,用于构建通过读取神经网络数据文件来验证的神经网络NET 来自数据文件存储部的DFN,通过从数据文件存储部读取验证数据文件DFK来生成初始间隔输入向量数据库DBI的输入数据生成部,基于用于执行神经网络NET的验证的验证执行部, 由网络结构部分构成的神经网络NET和由输入数据生成部分创建的初始间隔输入向量数据库DBI,以及基于验证结果生成验证结果DBO。 验证装置通过将由输入信号形成的输入信号空间与神经网络NET分割成多个输入而获得的每个输入信号子空间产生间隔输入向量信号。 信号子空间并将它们堆积在堆栈中。