冗余度机械臂柔性和低能量在线优化

2014 IEEE International Symposium on Safety, Security, and Rescue Robotics (2014) Pub Date : 2014-01-21 DOI:10.1109/SSRR.2014.7017645

Long Wu, Wei Song, Linyong Shen, Yanan Zhang, M. Minami

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引用次数: 0

摘要

由于冗余，大多数时候冗余机械手不需要所有的环节努力工作来完成给定的工作。看起来有些链接起主要作用，而另一些则起到辅助作用。我们认为它可以在保持机械臂的高灵活性和尽可能少消耗能量的基础上执行。Minami的研究已经验证了重构可操纵性形状指数(RMSI)可以用来评价机械臂的柔性。提出了一种基于RMSI的冗余度机械臂在线控制方法，将其与关节路径的能量成本函数相结合，实现了柔性优化和低能量成本。采用“一步遗传算法”技术求解在线优化问题。对一个四连杆冗余度机械臂的仿真结果表明，该方法能以较低的能量成本提高机械臂的柔性。

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On-line optimization of flexibility and low energy for redundant manipulator

Most of the time a redundant manipulator do not need all the links work hard to perform a given work because of redundancy. It looks like some links play a major role and others give the assistant effect. We consider it could be executed based on a rule of keeping with a high flexibility of the manipulator and using as less energy as possible. Minami's research has already verified the Reconfiguration Manipulability Shape Index (RMSI) can be used to evaluate the manipulator's flexibility. We propose an on-line control method for a redundant manipulator by optimizing its flexibility together with low energy cost using RMSI, and add it with the energy cost function of the joint-path. On-line optimization is solved by using “1-Step GA (Genetic Algorithm)” technique. Simulations of a 4-link redundant manipulator have shown the method can improve flexibility with low energy cost relatively.

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2014 IEEE International Symposium on Safety, Security, and Rescue Robotics (2014)

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