利用神经优化网络解决冗余机器人机械手的运动控制问题

EEE International Workshop on Intelligent Robots and Systems, Towards a New Frontier of Applications Pub Date : 1990-07-03 DOI:10.1109/IROS.1990.262465

W. Hyun, I. Suh, Joonhong Lim

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引用次数: 3

摘要

提出了一种有效的冗余度机械手分解运动控制方法，在满足作动器物理约束的前提下，最大限度地减少能量消耗，提高灵巧度。该方法采用神经网络优化，不需要计算雅可比矩阵。具体地说，由每个关节微分运动引起的末端执行器运动首先被分离成相对于给定的期望轨迹的正交分量和切向分量。然后通过神经网络优化得到运动的解，其方法是:(1)正交分量的线性组合为零;(2)切向分量的线性组合应为期望轨迹的微分长度;(3)不违反关节微分运动极限;(4)各关节微分运动的加权平方和最小。加权因子由一种新定义的关节灵巧度度量来控制，即切向分量和正交分量的比值。

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Resolved motion control of redundant robot manipulators by neural optimization networks

An effective resolved motion control method of redundant manipulators is proposed to minimize the energy consumption and to increase the dexterity while satisfying the physical actuator constraints. The method employs the neural optimization networks, where the computation of Jacobian matrix is not required. Specifically, end-effector movement resulting from each joint differential motion is first separated into orthogonal and tangential components with respect to a given desired trajectory. Then the resolved motion is obtained by neural optimization networks in such a way that: (1) the linear combination of the orthogonal components should be null; (2) the linear combination of the tangential components should be the differential length of the desired trajectory; (3) the differential joint motion limit is not violated, and (4) the weighted sum of the square of each differential joint motion is minimized. The weighting factors are controlled by a newly defined joint dexterity measure as the ratio of the tangential and orthogonal components.<>

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EEE International Workshop on Intelligent Robots and Systems, Towards a New Frontier of Applications

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