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Stability and Traction Optimization of a Reconfigurable Wheel-Legged Robot

Christophe Grand, Faïz Benamar, Frédéric Plumet, Philippe Bidaud

发表年份
2004
引用次数
198

摘要

Actively articulated locomotion systems such as hybrid wheel-legged vehicles are a possible way to enhance the locomotion performance of an autonomous mobile robot. In this paper, we address the control of the wheel-legged robot Hylos traveling on irregular sloping terrain. The redundancy of such a system is used to optimize both the balance of traction forces and the tipover stability. The general formulation of this optimization problem is presented, and a suboptimal but computationally efficient solution is proposed. Then, an algorithm to control the robot posture, based on a velocity model, is described. Finally, this algorithm is validated through simulations and experiments that show the capabilities of such a redundantly actuated vehicle to enhance its own safety and autonomy in critical environments.

关键词

Redundancy (engineering)Legged robotRobotTraction (geology)TerrainMobile robotControl theory (sociology)Computer scienceHexapodRobot locomotion

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