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    • 1. 发明授权
    • Object growth control system and method
    • 对象增长控制系统和方法
    • US06816802B2
    • 2004-11-09
    • US10287679
    • 2002-11-05
    • Jay-woo KimKyung-hwan KimSeok-won BangMi-hee LeeDong-geon KongHyoung-ki Lee
    • Jay-woo KimKyung-hwan KimSeok-won BangMi-hee LeeDong-geon KongHyoung-ki Lee
    • G06F1900
    • G06N3/004
    • An object growth control system and method are provided. The object growth control system includes a weighting unit, a growth state analyzer, and an object operation controller. The weighting unit detects external environments and a user's state, loads weights on predetermined user emotional states, predetermined object growth tendencies, and predetermined object emotional states according to the result of detection and the user's tendency, and outputs the results of loading of the weights as state data. The growth state analyzer applies a predetermined statistical model to the state data input for a predetermined period to analyze the user's tendency and outputs a degree of education on the object with respect to the user's tendency based on the state data to which the predetermined statistical model has been applied. The object operation controller applies a predetermined rule-based or statistical model to the state data and the degree of education to generate a control signal for controlling the operation of the object.
    • 提供了一种物体生长控制系统和方法。 对象增长控制系统包括加权单元,增长状态分析器和对象操作控制器。 加权单元根据检测结果和用户倾向检测外部环境和用户状态,加载预定用户情绪状态的权重,预定对象增长趋势和预定对象情绪状态,并将权重的加载结果输出为 状态数据。 生长状态分析器将预定的统计模型应用于预定时段的状态数据输入,以分析用户的趋势,并基于预定统计模型具有的状态数据,输出关于用户倾向的对象的教育程度 已被应用。 对象操作控制器对状态数据和教育程度应用预定的基于规则的或统计模型,以产生用于控制对象的操作的控制信号。
    • 2. 发明申请
    • ROBOT LOCALIZATION SYSTEM
    • 机器人本地化系统
    • US20110224824A1
    • 2011-09-15
    • US13113790
    • 2011-05-23
    • Hyoung-ki LeeJay-woo KimSeok-won Bang
    • Hyoung-ki LeeJay-woo KimSeok-won Bang
    • B25J13/08
    • G05D1/0225G05D1/0255G05D1/027G05D1/0272G05D1/028
    • A robot localization system is provided. The robot localization includes a robot, which moves within a predetermined space and performs predetermined tasks, and a docking station corresponding to a home position of the robot. The docking station includes a first transmitting unit, which transmits a sound wave to detect a position of the robot; and a second transmitting unit, which transmits a synchronizing signal right when the sound wave is transmitted. The robot includes a first receiving unit, which comprises at least two sound sensors receiving the sound wave incident onto the robot; a second receiving unit, which receives the synchronizing signal incident onto the robot; a distance calculation unit, which calculates a distance between the first transmitting unit and the first receiving unit using a difference between an instant of time when the synchronizing signal is received and an instant of time when the sound wave is received; and an incident angle calculation unit, which calculates an incident angle of the sound wave onto the robot using a difference between receiving times of the sound wave in the at least two sound sensors comprised in the first receiving unit.
    • 提供机器人定位系统。 机器人定位包括在预定空间内移动并执行预定任务的机器人以及对应于机器人起始位置的对接站。 对接站包括发送声波以检测机器人的位置的第一发送单元; 以及第二发送单元,当发送声波时发送正确的同步信号。 机器人包括第一接收单元,其包括接收入射到机器人上的声波的至少两个声音传感器; 第二接收单元,其接收入射到机器人上的同步信号; 距离计算单元,其使用接收到同步信号的时刻与接收到声波的时刻之间的差来计算第一发送单元和第一接收单元之间的距离; 以及入射角计算单元,其使用包括在第一接收单元中的至少两个声音传感器中的声波的接收时间之差来计算声波到机器人上的入射角。
    • 3. 发明授权
    • Robot localization system
    • 机器人定位系统
    • US07970491B2
    • 2011-06-28
    • US10747228
    • 2003-12-30
    • Hyoung-ki LeeJay-woo KimSeok-won Bang
    • Hyoung-ki LeeJay-woo KimSeok-won Bang
    • G06F19/00G05B13/02B60T7/16
    • G05D1/0225G05D1/0255G05D1/027G05D1/0272G05D1/028
    • A robot localization system is provided. The robot localization includes a robot, which moves within a predetermined space and performs predetermined tasks, and a docking station corresponding to a home position of the robot. The docking station includes a first transmitting unit, which transmits a sound wave to detect a position of the robot; and a second transmitting unit, which transmits a synchronizing signal right when the sound wave is transmitted. The robot includes a first receiving unit, which comprises at least two sound sensors receiving the sound wave incident onto the robot; a second receiving unit, which receives the synchronizing signal incident onto the robot; a distance calculation unit, which calculates a distance between the first transmitting unit and the first receiving unit using a difference between an instant of time when the synchronizing signal is received and an instant of time when the sound wave is received; and an incident angle calculation unit, which calculates an incident angle of the sound wave onto the robot using a difference between receiving times of the sound wave in the at least two sound sensors comprised in the first receiving unit.
    • 提供机器人定位系统。 机器人定位包括在预定空间内移动并执行预定任务的机器人以及对应于机器人起始位置的对接站。 对接站包括发送声波以检测机器人的位置的第一发送单元; 以及第二发送单元,其在发送声波时发送正确的同步信号。 机器人包括第一接收单元,其包括接收入射到机器人上的声波的至少两个声音传感器; 第二接收单元,其接收入射到机器人上的同步信号; 距离计算单元,其使用接收到同步信号的时刻与接收到声波的时刻之间的差来计算第一发送单元和第一接收单元之间的距离; 以及入射角计算单元,其使用包括在第一接收单元中的至少两个声音传感器中的声波的接收时间之差来计算声波到机器人上的入射角。
    • 5. 发明授权
    • Robot and method and medium for localizing the same by using calculated covariance
    • 机器人和方法以及通过使用计算协方差对其进行定位的介质
    • US08315734B2
    • 2012-11-20
    • US11688983
    • 2007-03-21
    • Hyeon MyeongYong-beom LeeSeok-won BangHyoung-ki LeeKi-wan ChoiEun-young Choe
    • Hyeon MyeongYong-beom LeeSeok-won BangHyoung-ki LeeKi-wan ChoiEun-young Choe
    • G06F19/00
    • G05D1/0272G05D1/027
    • Provided are a robot capable of improving the computation rate by considering whether a parameter will diverge and modifying the experiment order of offspring during evolutionary computation, when the covariance of system noise and that of measurement noise are calculated for the purpose of localizing the robot by using a Kalman filter, and a method and medium of localizing a robot by using a calculated covariance. The robot includes a gyroscope module providing information regarding rotational angle; an encoder module providing information regarding velocity and information regarding rotational angle of a wheel by sensing motion of the wheel; and a control module estimating a current location according to a Kalman filter method based on information provided by the encoder module and the gyroscope module, a covariance of system noise and a covariance of measurement noise being calculated in an evolutionary computation and applied to the Kalman filter method by the control module, the covariance of system noise and the covariance of measurement noise satisfying a condition that no Kalman filter parameter diverges in the evolutionary computation.
    • 提供了一种能够通过考虑在进化计算期间参数是否会发散和修改后代的实验次序来提高计算速率的机器人,当系统噪声和测量噪声的协方差被计算用于通过使用 卡尔曼滤波器,以及通过使用计算的协方差来定位机器人的方法和介质。 机器人包括提供关于旋转角度的信息的陀螺仪模块; 编码器模块,通过感测车轮的运动来提供关于车轮旋转角度的速度和信息的信息; 以及基于卡尔曼滤波方法的编码器模块和陀螺仪模块提供的信息来估计当前位置的控制模块,系统噪声的协方差和在进化计算中计算的应用于卡尔曼滤波器的测量噪声的协方差 控制模块的方法,系统噪声的协方差和测量噪声的协方差满足在进化计算中没有卡尔曼滤波参数分歧的条件。
    • 7. 发明授权
    • Apparatus and method for correcting bias of gyroscope mounted on mobile robot
    • 用于校正安装在移动机器人上的陀螺仪偏差的装置和方法
    • US07840369B2
    • 2010-11-23
    • US11822405
    • 2007-07-05
    • Hyoung-ki LeeKi-wan ChoiDong-yoon KimSeok-won Bang
    • Hyoung-ki LeeKi-wan ChoiDong-yoon KimSeok-won Bang
    • G01C19/54
    • G01C19/42Y10T74/1229
    • An apparatus correcting a bias of a gyroscope that is mounted on a mobile robot and that measures an angular velocity of the mobile robot. The apparatus includes: at least one encoder respectively measuring a traveling velocity of a respective at least one wheel of the mobile robot; a modeling unit calculating an angular velocity of the mobile robot by using the measured traveling velocity; a bias presuming unit determining a confidence range by using difference values between the calculated angular velocity and the measured angular velocity, and calculating a presumed bias by using a value in a confidence range among the difference values; and a bias removing unit removing the presumed bias from the measured angular velocity.
    • 一种校正安装在移动机器人上并测量移动机器人的角速度的陀螺仪的偏置的装置。 该装置包括:分别测量移动机器人的相应的至少一个车轮的行进速度的至少一个编码器; 建模单元,通过使用测量的行进速度来计算移动机器人的角速度; 偏置推定单元通过使用所计算的角速度和所测量的角速度之间的差值来确定置信区间,并且通过使用所述差值之中的置信区间中的值来计算推定的偏差; 以及偏置去除单元,从所测量的角速度除去所述推定的偏压。