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    • 2. 发明授权
    • Method and system for performing seamless localization
    • 执行无缝定位的方法和系统
    • US08761934B2
    • 2014-06-24
    • US13328557
    • 2011-12-16
    • Chang Eun LeeTae-Kyung SungSung Hoon KimHyun-Ja ImYoung-Jo Cho
    • Chang Eun LeeTae-Kyung SungSung Hoon KimHyun-Ja ImYoung-Jo Cho
    • G05D1/02
    • G05D1/0282G05D1/0278G05D1/0291
    • A system achieves seamless localization for a plurality of robots when first some robots moves to a shadow area where GPS signals are not received while remaining second robots receives the GPS signals, by performing an absolute localization for the second robots using the GPS signals; and performing an absolute localization for the second robots using the GPS signals; performing a relative localization for the first robots based on the second robots, thereby determining an absolute location of the first robots. Further, when the second robots move to the shadow area where the first robots have been moved, the system performs the seamless localization by determining a relative location of the second robots based on the first robots on which the relative localization has been performed, thereby determining an absolute location of the second robots based on the relative location of the second robots.
    • 当第一个机器人移动到没有接收到GPS信号的阴影区域,而剩下的第二机器人接收到GPS信号时,通过使用GPS信号执行第二机器人的绝对定位,系统实现多个机器人的无缝定位。 并使用GPS信号对第二机器人执行绝对定位; 基于第二机器人执行第一机器人的相对定位,从而确定第一机器人的绝对位置。 此外,当第二机器人移动到第一机器人被移动的阴影区域时,系统通过基于执行了相对定位的第一机器人确定第二机器人的相对位置来执行无缝定位,从而确定 基于第二机器人的相对位置的第二机器人的绝对位置。
    • 4. 发明申请
    • TOUCH ACTION RECOGNITION SYSTEM AND METHOD
    • 触摸动作识别系统和方法
    • US20090153499A1
    • 2009-06-18
    • US12190760
    • 2008-08-13
    • Jae Hong KIMSang Seung KangJoo Chan SohnHyun Kyu ChoYoung-Jo Cho
    • Jae Hong KIMSang Seung KangJoo Chan SohnHyun Kyu ChoYoung-Jo Cho
    • G06F3/041
    • G06F3/011G06F3/0414
    • A system for recognizing a touch action that a person has performed upon an object, is provided with a sensor component for detecting a sensor value corresponding to the touch action through an inertial sensor attached to part of a body of the person; and a signal processing component for recognizing the touch action from the sensor value detected by the sensor component and transferring the recognized touch action to the object. Further, a method for recognizing a touch action that a person has performed upon an object, is provided with: detecting a sensor value corresponding to the touch action through an inertial sensor attached to part of a body of the person; and recognizing the touch action from the detected sensor value and transferring the recognized touch action to the object.
    • 用于识别人已经对物体进行的触摸动作的系统设置有用于通过附接到人的身体的一部分的惯性传感器来检测与触摸动作对应的传感器值的传感器部件; 以及信号处理部件,用于从由传感器部件检测到的传感器值识别触摸动作,并将识别的触摸动作传送到对象。 此外,用于识别人已经对物体进行的触摸动作的方法被提供有:通过附接到人的身体的一部分的惯性传感器来检测与触摸动作相对应的传感器值; 以及从检测到的传感器值识别触摸动作并将识别的触摸动作传送到对象。
    • 5. 发明申请
    • EXPRESSION OF EMOTIONS IN ROBOT
    • 表达机器人中的情绪
    • US20080119959A1
    • 2008-05-22
    • US11930659
    • 2007-10-31
    • Cheonshu PARKJoung Woo RYUJoo Chan SOHNYoung Jo CHO
    • Cheonshu PARKJoung Woo RYUJoo Chan SOHNYoung Jo CHO
    • G06F19/00
    • G06N3/008
    • A method and apparatus for expressing an emotion of a robot, which are applicable to different emotion robot platforms are provided. The method of expressing an emotion of a robot, the method includes: collecting emotion information by at least one internal or external sensor; generating an emotion and determining a behavior based on the collected information; determining an emotion expression, emotional intensity, and an action unit according to the generated emotion; generating an emotion expression document according to the determined emotion expression, emotional intensity, and action unit; analyzing the emotion expression document; and controlling the robot based on the initial status information of the robot and the generated emotion expression document.
    • 提供了一种用于表达机器人情感的方法和装置,其适用于不同的情感机器人平台。 一种表达机器人情感的方法,所述方法包括:通过至少一个内部或外部传感器收集情感信息; 基于收集的信息产生情感并确定行为; 根据生成的情绪确定情感表达,情绪强度和行动单位; 根据确定的情感表达,情绪强度和行动单位产生情感表达文件; 分析情感表达文件; 并且基于机器人的初始状态信息和生成的情感表达文档来控制机器人。
    • 7. 发明申请
    • APPARATUS AND METHOD FOR EXPRESSING EMOTIONS IN INTELLIGENT ROBOT BY USING STATE INFORMATION
    • 使用状态信息在智能机器人中表达情感的装置和方法
    • US20080077277A1
    • 2008-03-27
    • US11846010
    • 2007-08-28
    • Cheon Shu PARKJoung Woo RYUJoo Chan SOHNYoung Jo CHO
    • Cheon Shu PARKJoung Woo RYUJoo Chan SOHNYoung Jo CHO
    • B25J9/00B25J19/02
    • G06N3/008
    • An apparatus and method for expressing emotions in an intelligent robot. In the apparatus, a plurality of different sensors sense information about internal/external stimuli. A state information collector processes the detected information about the internal/external stimuli in a hierarchical structure to collect external state information. An emotion motive determiner determines an emotion need motive on the basis of the external state information and the degree of a change in an emotion need parameter corresponding to internal state information. An emotion state manager extracts available means information for satisfaction of the generated emotion needs motive and state information corresponding to the available means information. An emotion generator generates emotion information on the basis of a feature value of the extracted state information. An action determiner determines action information for satisfaction of the emotion need motive on the basis of the extracted state information and the generated emotion information. An action expresser expresses an action corresponding to the action information through a corresponding actuator on the basis of the determined action information.
    • 一种用于在智能机器人中表达情绪的装置和方法。 在该装置中,多个不同的传感器感测关于内部/外部刺激的信息。 状态信息收集器以层次结构处理检测到的关于内部/外部刺激的信息以收集外部状态信息。 情绪动机确定器根据外部状态信息和对应于内部状态信息的情感需求参数的变化程度来确定情绪需求动机。 情绪状态管理器提取可用意味着信息以满足生成的情绪需求动机和对应于可用装置信息的状态信息。 情绪发生器基于所提取的状态信息的特征值生成情感信息。 动作确定器基于提取的状态信息和生成的情感信息来确定满足情绪需求动机的动作信息。 动作表示器基于所确定的动作信息,通过对应的致动器来表示对应于动作信息的动作。
    • 8. 发明授权
    • Method for generating control codes for use in a process control system
    • 用于生成用于过程控制系统的控制代码的方法
    • US06173208B2
    • 2001-01-09
    • US09058966
    • 1998-04-13
    • Jung Min ParkYoung Jo ChoWoo Jung HuhEung Seok Kim
    • Jung Min ParkYoung Jo ChoWoo Jung HuhEung Seok Kim
    • G05B1500
    • G05B19/056G05B2219/13134
    • Structured control codes which control a subject system are generated in a process control system having a user interface of a function block diagram editor including basic function block menus which represent a plurality of predetermined basic function blocks. The structured control codes are generated by the steps of: providing input/output data of the subject system in the form of database; retrieving the input/output data of the subject system; providing the input/output data as an input/output block menu on the user interface of the function block diagram editor; building a control algorithm by using the input/output block menus and the basic function block menus on the user interface; and converting the control algorithm to structured control codes.
    • 在具有包括表示多个预定基本功能块的基本功能块菜单的功能块图编辑器的用户界面的过程控制系统中生成控制主题系统的结构化控制代码。 结构化控制代码通过以下步骤生成:提供数据库形式的主题系统的输入/输出数据; 检索主题系统的输入/输出数据; 在功能块图编辑器的用户界面上提供输入/输出数据作为输入/输出块菜单; 通过使用用户界面上的输入/输出块菜单和基本功能块菜单构建控制算法; 并将控制算法转换为结构化控制代码。