This paper presents a simple and robust approach to achieving collision avoidance for kinematically redundant manipulators at the control-loop level. The proposed scheme represents the obstacle avoidance requirement as inequality constraints in the manipulator workspace, and ensures that these inequalities are satisfied while the end-effector tracks the desired trajectory. The control scheme is the damped-least-squares formulation of the configuration control approach implemented as a kinematic controller. Computer simulation and experimental results are given for a Robotics Research 7 DOF redundant arm and demonstrate the collision avoidance capability for reaching inside a truss structure. These results confirm that the proposed approach provides a simple and effective method for real-time collision avoidance.
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机译:本文提出了一种简单而鲁棒的方法,可以在控制回路级别实现运动学冗余机械手的避免碰撞。提出的方案将障碍回避需求表示为机械手工作空间中的不等式约束,并确保在末端执行器跟踪所需轨迹时满足这些不等式。该控制方案是实现为运动学控制器的配置控制方法的最小二乘法。给出了Robotics Research 7 DOF冗余臂的计算机模拟和实验结果,并演示了避免触及桁架结构的能力。这些结果证实了所提出的方法为实时避免碰撞提供了一种简单有效的方法。
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