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<title>Mobile robot kinematic reconfigurability for rough terrain</title>

Karl Iagnemma, Adam K. Rzepniewski, Steven Dubowsky, Paolo Pirjanian, Terrance L. Huntsberger, Paul S. Schenker

发表年份
2000
引用次数
86

摘要

Future planetary exploration missions will use rovers to perform tasks in rough terrain. Working in such conditions, a rover could become trapped due to loss of wheel traction, or even tip over. The Jet Propulsion Laboratory has developed a new rover with the ability to reconfigure its structure to improve tipover stability and ground traction. This paper presents a method to control this reconfigurability to enhance system tipover stability. A stability metric is defined and optimized online using a quasi-static model. Simulation and experimental results for the Sample Return Rover (SSR) are presented. The method is shown to be practical and yields significantly improved stability in rough terrain.

关键词

ReconfigurabilityTerrainJet propulsionKinematicsComputer sciencePropulsionMobile robotRobotAerospace engineeringStability (learning theory)

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