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    • 3. 发明授权
    • Balance control apparatus of robot and control method thereof
    • 机器人平衡控制装置及其控制方法
    • US09334002B2
    • 2016-05-10
    • US13490951
    • 2012-06-07
    • Kee Hong SeoJoo Hyung KimKyung Shik Roh
    • Kee Hong SeoJoo Hyung KimKyung Shik Roh
    • G05B19/04B62D57/032
    • B62D57/032
    • A balance control apparatus of a robot and a control method thereof. The balance control method of the robot, which has a plurality of legs and an upper body, includes detecting pose angles of the upper body and angles of the plurality of joint units, acquiring a current capture point and a current hip height based on the pose angles and the angles of the plurality of joint units, calculating a capture point error by comparing the current capture point with a target capture point, calculating a hip height error by comparing the current hip height with a target hip height, calculating compensation forces based on the capture point error and the hip height error, calculating a target torque based on the calculated compensation forces, and outputting the calculated target torque to the plurality of joint units to control balance of the robot.
    • 机器人的平衡控制装置及其控制方法。 具有多个腿部和上部身体的机器人的平衡控制方法包括检测上部的姿态角度和多个关节部件的角度,基于姿势获取当前的捕捉点和当前的臀部高度 角度和多个关节单元的角度,通过将当前捕获点与目标捕获点进行比较来计算捕获点误差,通过将当前髋部高度与目标髋关节高度进行比较来计算髋部高度误差,基于 捕获点误差和臀部高度误差,基于计算出的补偿力计算目标扭矩,并将计算出的目标扭矩输出到多个关节单元,以控制机器人的平衡。
    • 4. 发明申请
    • BALANCE CONTROL APPARATUS OF ROBOT AND CONTROL METHOD THEREOF
    • 机器人的平衡控制装置及其控制方法
    • US20120316682A1
    • 2012-12-13
    • US13369438
    • 2012-02-09
    • Kee Hong SEOJoo Hyung KimKyung Shik Roh
    • Kee Hong SEOJoo Hyung KimKyung Shik Roh
    • B25J13/08
    • B62D57/032
    • A balance control apparatus of a robot and a control method thereof. The balance control method of the robot, which has a plurality of legs and an upper body, includes detecting pose angles of the upper body and angles of the plurality of joint units, acquiring a current capture point and a current hip height based on the pose angles and the angles of the plurality of joint units, calculating a capture point error by comparing the current capture point with a target capture point, calculating a hip height error by comparing the current hip height with a target hip height, calculating compensation forces based on the capture point error and the hip height error, calculating torques respectively applied to the plurality of joint units based on the compensation forces, and outputting the torques to the plurality of joint units to control balance of the robot.
    • 机器人的平衡控制装置及其控制方法。 具有多个腿部和上部身体的机器人的平衡控制方法包括检测上部的姿态角度和多个关节部件的角度,基于姿势获取当前的捕捉点和当前的臀部高度 角度和多个关节单元的角度,通过将当前捕获点与目标捕获点进行比较来计算捕获点误差,通过将当前髋部高度与目标髋关节高度进行比较来计算髋部高度误差,基于 捕获点误差和臀部高度误差,基于补偿力计算分别施加到多个关节单元的扭矩,并将扭矩输出到多个关节单元以控制机器人的平衡。
    • 6. 发明授权
    • Walking robot and control method thereof
    • 步行机器人及其控制方法
    • US09376151B2
    • 2016-06-28
    • US13293465
    • 2011-11-10
    • Jae Ho ParkKyung Shik RohWoong KwonJoo Hyung KimJu Suk Lee
    • Jae Ho ParkKyung Shik RohWoong KwonJoo Hyung KimJu Suk Lee
    • B25J9/18B62D57/032B25J9/16
    • B62D57/032B25J9/162B25J9/1664G05B2219/40244
    • A walking robot and a control method thereof. The control method includes performing transition of a second leg to a toe-off state, when ground reaction force applied to a first leg exceeds a first set value under the condition that the first leg is in a swing state and the second leg is in a support state, performing transition of the second leg to the swing state and transition of the first leg to the support state, when ground reaction force applied to the second leg is below a second set value under the condition that the second leg is in the toe-off state, and achieving walking of the walking robot by repeating the transitions among the swing state, the support state and the toe-off state. Thereby, the control method allows the robot to more stably and naturally walk.
    • 一种步行机器人及其控制方法。 控制方法包括:在第一腿处于摆动状态,第二腿处于第一腿的状态下,当施加到第一腿的地面反作用力超过第一设定值时,执行第二腿部到脚趾关闭状态的转变 在第二腿处于脚趾的状态下,当施加到第二腿的地面反作用力低于第二设定值时,执行第二腿到摆动状态的转变和第一腿的转变到支撑状态 并且通过重复摆动状态,支撑状态和脚趾关闭状态之间的过渡来实现步行机器人的行走。 因此,该控制方法允许机器人更稳定和自然地行走。
    • 7. 发明授权
    • Walking robot and control method thereof
    • 步行机器人及其控制方法
    • US08874263B2
    • 2014-10-28
    • US13249950
    • 2011-09-30
    • Ho Seong KwakKyung Shik RohWoong KwonMin Hyung LeeJoo Hyung Kim
    • Ho Seong KwakKyung Shik RohWoong KwonMin Hyung LeeJoo Hyung Kim
    • B25J11/00B62D57/032
    • B62D57/032Y10S901/01
    • A walking robot and a control method in which conversion between walking servo control methods is stably carried out. The walking robot includes a sensor unit to measure angles and torques of joints, and a control unit to calculate voltages applied in a Finite State Machine (FSM) control mode and a Zero Moment Point (ZMP) control mode according to the angles and torques of the joints to drive respective joint motors, to store last target joint angles in the FSM control mode during conversion from the FSM control mode to the ZMP control mode, and to perform a motion based on the FSM control mode by substituting the last target joint angles in the FSM control mode for target joint angles in the FSM control mode during conversion from the ZMP control mode to the FSM control mode, thereby performing stable conversion between walking servo control modes without joint sagging.
    • 一种行走机器人和其中稳定执行步行伺服控制方法之间的转换的控制方法。 行走机器人包括用于测量关节角度和扭矩的传感器单元,以及控制单元,用于根据角度和转矩的角度和转矩来计算在有限状态机(FSM)控制模式和零点(ZMP)控制模式中施加的电压 在从FSM控制模式到ZMP控制模式的转换期间,驱动各个关节电动机的关节,以在FSM控制模式中存储最后的目标关节角度,并且通过代替最后的目标关节角度来执行基于FSM控制模式的运动 在FSM控制模式下,在从ZMP控制模式转换到FSM控制模式时,在FSM控制模式下的目标关节角度,从而在没有关节下垂的步行伺服控制模式之间进行稳定的转换。