Control of rolling contacts in multiple robotic manipulation

Fifth International Conference on Advanced Robotics 'Robots in Unstructured Environments Pub Date : 1991-06-19 DOI:10.1109/ICAR.1991.240588

E. Paljug, X. Yun, Vijay R. Kumar

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引用次数: 11

Abstract

When multiple arms are used to manipulate a large object, it is productive and sometimes necessary to maintain and control contacts between the object and surfaces of the robot other than those at the end-effector. Hence, the contact surface of the robot is referred to simply as its effector and includes the surface of any link of the manipulator as well as open palm-like effectors at the arm's extremity. Such contacts are characterized by holonomic as well as nonholonomic (including unilateral) constraints. In this paper, the control of rolling contact is investigated. Multiarm manipulation systems are typically redundant. In the approach, a minimal set of inputs is employed to control the trajectory of the system while the surplus inputs control the rolling condition at the contacts. A nonlinear feedback scheme for simultaneous force and motion control is presented and a new approach to adaptively adjust a two-effector grasp with rolling contacts is developed. Simulations are used to illustrate the salient features in control and planning.<>

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多机器人操作中滚动接触的控制

当使用多个手臂来操作大型物体时，保持和控制物体与机器人表面(而不是末端执行器表面)之间的接触是有生产力的，有时是必要的。因此，机器人的接触面简称为效应器，包括机械臂任一环节的表面以及手臂末端张开的手掌状效应器。这种接触具有完整约束和非完整约束(包括单边约束)的特点。本文研究了滚动接触的控制问题。多臂操作系统通常是冗余的。该方法采用最小输入集控制系统轨迹，剩余输入集控制接触面处的滚动状态。提出了一种力与运动同步控制的非线性反馈方案，并提出了一种具有滚动接触的双效应器抓具的自适应调整方法。仿真用来说明控制和规划的显著特点

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fifth International Conference on Advanced Robotics 'Robots in Unstructured Environments

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