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Motion planning of a bipedal miniature crawling robot in hybrid configuration space

Jizhong Xiao, Ning Xi, Hans Dulimarta, R. Lal Tummala

Year
2003
Citations
6

Abstract

This paper describes the motion planning of a bipedal crawling robot with an under-actuated mechanism and multiple locomotion modes. A hybrid configuration space is proposed to incorporate the continuous configuration space with discrete motion status space imposed by the kinematic constraints. Under the hybrid configuration space framework, a motion planning method is developed which consists of a global planner and a local planner to generate a collision-free path and a feasible motion sequence to travel along the path. A cost function is defined based on the motion status information to guide the search for an optimal path. Simulation and experimental results have verified the theoretical development.

Keywords

Motion planningConfiguration spaceCrawlingKinematicsRobotMotion (physics)Path (computing)Computer scienceControl theory (sociology)Robot kinematics

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