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Nonholonomic behavior in redundant robots under kinematic control

Alessandro De Luca, Giuseppe Oriolo

发表年份
1997
引用次数
31

摘要

We analyze the behavior of redundant robots when the joint motion is generated by inverting task velocity commands through a kinematic control scheme. Depending on the chosen inversion scheme, the robot motion is subject to differential constraints that may or may not be integrable. Accordingly, we give a classification in terms of holonomic, partially nonholonomic, and completely nonholonomic behavior, pointing out also the relationship with the so-called cyclicity property. This general classification is illustrated by means of several examples. When the kinematic control scheme is nonholonomic, the whole configuration space of the robot is accessible by a proper choice of the task input commands. Under this assumption, we address the joint reconfiguration problem, namely the design of end-effector velocity commands that drive the robot to a desired joint configuration. To solve this problem, it is possible to borrow existing methods for motion planning of nonholonomic mechanical systems, such as the sinusoidal steering technique for chained-form systems.

关键词

Nonholonomic systemHolonomicKinematicsControl theory (sociology)Configuration spaceRobotComputer scienceRobot kinematicsInverse kinematicsMotion planning

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