The Scientific World Journal (Jan 2014)

Path-Following Control of Wheeled Planetary Exploration Robots Moving on Deformable Rough Terrain

  • Liang Ding,
  • Hai-bo Gao,
  • Zong-quan Deng,
  • Zhijun Li,
  • Ke-rui Xia,
  • Guang-ren Duan

DOI
https://doi.org/10.1155/2014/793526
Journal volume & issue
Vol. 2014

Abstract

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The control of planetary rovers, which are high performance mobile robots that move on deformable rough terrain, is a challenging problem. Taking lateral skid into account, this paper presents a rough terrain model and nonholonomic kinematics model for planetary rovers. An approach is proposed in which the reference path is generated according to the planned path by combining look-ahead distance and path updating distance on the basis of the carrot following method. A path-following strategy for wheeled planetary exploration robots incorporating slip compensation is designed. Simulation results of a four-wheeled robot on deformable rough terrain verify that it can be controlled to follow a planned path with good precision, despite the fact that the wheels will obviously skid and slip.