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    • 1. 发明授权
    • Robot control apparatus and method
    • 机器人控制装置及方法
    • US07212886B2
    • 2007-05-01
    • US10735241
    • 2003-12-12
    • Hideo NagataKenichi YasudaYasuyuki Inoue
    • Hideo NagataKenichi YasudaYasuyuki Inoue
    • G06F19/00
    • B25J9/1633G05B2219/39188G05B2219/39237G05B2219/40342
    • A robot control apparatus including a motion torque calculating section for calculating a motion torque command which is required for a motion of a servo motor, a disturbance torque estimating section for calculating a disturbance torque, a minute displacement relationship calculating section for calculating a minute displacement relationship between a task coordinate system of a robot and a joint coordinate system of the servo motor, an external force calculating section for carrying out a conversion to an external force on the task coordinate system, a force control section for calculating a position correction amount on the task coordinate system of the robot, and a joint angle correction amount calculating section for carrying out a conversion to a joint angle correction amount on the joint coordinate system.
    • 一种机器人控制装置,包括:运动转矩计算部,其计算伺服电动机的运动所需的运动转矩指令;扰动转矩估计部,计算扰动转矩;微分位移关系计算部,计算微小位移关系 在机器人的任务坐标系与伺服电动机的联合坐标系之间,对所述任务坐标系进行向外力的转换的外力计算部,对所述任意坐标系的外力进行位置修正量的力控制部 机器人的任务坐标系,以及关节角度校正量计算部,用于对关节坐标系进行关节角修正量的转换。
    • 2. 发明授权
    • System and method for judging success or failure of work of robot
    • 用于判断机器人工作成功或失败的系统和方法
    • US08712589B2
    • 2014-04-29
    • US13042478
    • 2011-03-08
    • Hideo NagataYasuyuki InoueYosuke Kamiya
    • Hideo NagataYasuyuki InoueYosuke Kamiya
    • G05B15/00G05B19/18
    • B25J9/1633G05B19/401
    • A system for judging success or failure of a work of a robot includes a position command generating unit, a contact position detecting unit, and a work success/failure judging unit. The position command generating unit generates a position command enabling movement of a fingertip of the robot so that a position and posture detecting unit, which is attached to the fingertip of the robot and has an elastic transformation area, is brought into contact with a predetermined position relating to a work target after the predetermined work is performed for the work target by the robot. The contact position detecting unit calculates a contact position that is a position of a tip end of the position and posture detecting unit at the time of being in contact with the predetermined position based on a value of an external force applied to the fingertip and the position of the tip end of the position and posture detecting unit. The work success/failure judging unit judges the predetermined work to be successful when the calculated contact position is within a predetermined range and judges the predetermined work to be failed when the calculated contact position is not within the predetermined range.
    • 用于判断机器人的作业的成败的系统包括位置指令生成单元,接触位置检测单元和作业成功/失败判定单元。 位置指令生成部生成能够使机器人的指尖运动的位置指令,使安装在机器人的指尖上并具有弹性变形区域的位置姿势检测部与预定位置接触 在通过机器人对工作目标进行预定工作之后与工作目标相关。 接触位置检测单元基于施加到指尖的外力的值和位置上的位置来计算作为与所述预定位置接触时的位置和姿势检测单元的末端的位置的接触位置 位置姿势检测单元的末端。 当所计算的接触位置在预定范围内时,工作成功/失败判断单元判定预定的工作成功,并且当所计算的接触位置不在预定范围内时,判定预定工作失败。
    • 4. 发明申请
    • APPARATUS AND METHOD FOR DETECTING CONTACT POSITION OF ROBOT
    • 检测机器人接触位置的装置和方法
    • US20110270443A1
    • 2011-11-03
    • US13043493
    • 2011-03-09
    • Yosuke KAMIYAYasuyuki InoueHideo Nagata
    • Yosuke KAMIYAYasuyuki InoueHideo Nagata
    • G06F19/00
    • G05B19/401
    • An apparatus for detecting a contact position where a robot makes contact with an object includes a probe, a probe-position calculating unit, a contact detecting unit, and a contact-position calculating unit. The probe is attached to the robot and is configured to make a displacement in a direction of making contact with the object in an elastic manner. The probe-position calculating unit calculates a position of the probe of the robot in operation. The contact detecting unit detects a contact state of the probe with the object. When the contact state of the probe is detected, the contact-position calculating unit derives the contact position based on a calculated position of the probe.
    • 用于检测机器人与物体接触的接触位置的装置包括探针,探针位置计算单元,接触检测单元和接触位置计算单元。 探针附接到机器人,并且被配置为使得能够以弹性方式与物体接触的方向发生位移。 探测位置计算单元计算操作中的机器人的探头的位置。 接触检测单元检测探头与物体的接触状态。 当检测到探针的接触状态时,接触位置计算单元基于计算出的探针的位置导出接触位置。
    • 5. 发明申请
    • Evaluating System And Evaluating Method Of Robot
    • 机器人评估系统及评估方法
    • US20070288124A1
    • 2007-12-13
    • US11661136
    • 2005-08-19
    • Hideo NagataYasuyuki Inoue
    • Hideo NagataYasuyuki Inoue
    • B25J13/08
    • B25J9/1694B25J13/088G05B2219/40547
    • There are provided an evaluating system of a robot and its evaluating method capable of measuring a movement state amount, particularly, a position or a speed or an acceleration, or an angle or an angular speed or an angular acceleration of an arm of a robot by a simple system constitution in noncontact, accurately, in real time, dispensing with a complicated calibration. There is provided an evaluating system of a robot characterized in including a sensor provided at an arm of a robot for detecting a movement state amount of the arm, an angle detector for measuring an articulate angle of each axis servo motor of the robot, a first sensor operating portion for converting a state amount of the sensor into a state amount in a robot coordinate system, a second sensor operating portion for converting an articulate angle of the angle detector into a state amount in the robot coordinate system, and an output synthesizing portion for synthesizing an output of the first sensor operating portion and an output of the second sensor operating portion.
    • 提供了一种机器人的评估系统及其评估方法,其能够测量机器人的手臂的运动状态量,特别是位置,速度或加速度,角度或角速度或角加速度 一个简单的系统结构,非接触,准确,实时,分配复杂的校准。 提供了一种机器人的评价系统,其特征在于包括设置在机器人的臂处的传感器,用于检测臂的移动状态量;角度检测器,用于测量机器人的各轴伺服电动机的关节角度;第一 用于将传感器的状态量转换为机器人坐标系中的状态量的传感器操作部分,用于将角度检测器的关节角度转换为机器人坐标系中的状态量的第二传感器操作部分,以及输出合成部分 用于合成第一传感器操作部分的输出和第二传感器操作部分的输出。
    • 6. 发明授权
    • Apparatus and method for detecting contact position of robot
    • 机器人接触位置检测装置及方法
    • US08798790B2
    • 2014-08-05
    • US13043493
    • 2011-03-09
    • Yosuke KamiyaYasuyuki InoueHideo Nagata
    • Yosuke KamiyaYasuyuki InoueHideo Nagata
    • G06F19/00
    • G05B19/401
    • An apparatus for detecting a contact position where a robot makes contact with an object includes a probe, a probe-position calculating unit, a contact detecting unit, and a contact-position calculating unit. The probe is attached to the robot and is configured to make a displacement in a direction of making contact with the object in an elastic manner. The probe-position calculating unit calculates a position of the probe of the robot in operation. The contact detecting unit detects a contact state of the probe with the object. When the contact state of the probe is detected, the contact-position calculating unit derives the contact position based on a calculated position of the probe.
    • 用于检测机器人与物体接触的接触位置的装置包括探针,探针位置计算单元,接触检测单元和接触位置计算单元。 探针附接到机器人,并且被配置为使得能够以弹性方式与物体接触的方向发生位移。 探测位置计算单元计算操作中的机器人的探头的位置。 接触检测单元检测探头与物体的接触状态。 当检测到探针的接触状态时,接触位置计算单元基于计算出的探针的位置导出接触位置。
    • 8. 发明授权
    • Robot controller
    • 机器人控制器
    • US5994864A
    • 1999-11-30
    • US29735
    • 1998-06-10
    • Yasuyuki InoueHideo Nagata
    • Yasuyuki InoueHideo Nagata
    • B25J9/16G05B19/04
    • B25J9/1633G05B2219/42123
    • A control apparatus and compliance control apparatus of a robot which performs operations while switching between a position control and a compliance control. When a transition from the position control to the compliance control is made, an integration operation of a speed control system is stopped. Thereafter, an integration value of the speed control system is stored in a memory, and, at the same time, the integration value is added to a torque reference. Alternately, a gravity compensation value is added to the torque reference, the gravity compensation value being computed based on a joint angle of a robot arm and a link mass and a position of a center of gravity of the robot. When the control returns from the compliance control to the position control, a present position is dealt with an instruction position. The compliance control apparatus includes a device (102) for controlling a torque of a servo motor to drive a joint portion; a device (106) for measuring a joint angle; a device (108) for computing a very small displacement between coordinates based on the measurement information; a device (102) for converting a limitation value (107) of either a force or a torque set in a working coordinate system by giving the foregoing very small displacement correspondence relation to the foregoing computation means (108); and devices (104, 105, 106) for limiting the torque.
    • PCT No.PCT / JP96 / 02574 Sec。 371日期:1998年6月10日 102(e)1998年6月10日PCT PCT 1996年9月10日PCT公布。 公开号WO97 / 10081 日期1997年3月20日一种机械手的控制装置和顺从控制装置,其在位置控制和合规控制之间切换时执行操作。 当进行从位置控制向合规控制的转换时,停止对速度控制系统的积分动作。 此后,将速度控制系统的积分值存储在存储器中,并且同时将积分值加到转矩基准。 或者,重力补偿值被添加到转矩基准,重力补偿值是基于机器人手臂和连杆质量的关节角度以及机器人的重心位置来计算的。 当控制从顺从性控制返回到位置控制时,处理当前位置的指令位置。 柔性控制装置包括:用于控制伺服电动机的扭矩以驱动接合部的装置(102); 用于测量关节角度的装置(106); 用于基于所述测量信息计算坐标之间的非常小的位移的装置(108); 通过给出与上述计算装置(108)的上述非常小的位移对应关系,转换在工作坐标系中设定的力或扭矩的限制值(107)的装置(102)。 以及用于限制转矩的装置(104,105,106)。