Affiliation:
1. Department of Mathematics University of Maryland College Park, Maryland 20742
Abstract
A wheeled mobile robot is here modelled as a planar rigid body that rides on an arbitrary number of wheels. The rela tionship between the rigid body motion of the robot and the steering and drive rates of wheels is developed. In particular, conditions are obtained that guarantee that rolling without skidding or sliding can occur. Explicit differential equations are derived to describe the rigid body motions that arise in such ideal rolling trajectories. The simplest wheel configura tion that permits access of arbitrary rigid-body motions is determined. Then the question of slippage due to misalign ment of the wheels is investigated by minimization of a non- smooth convex dissipation functional that is derived from Coulomb's Law offriction. It is shown that this minimization principle is equivalent to the construction of quasi-static motions. Examples are presented to illustrate the models.
Subject
Applied Mathematics,Artificial Intelligence,Electrical and Electronic Engineering,Mechanical Engineering,Modelling and Simulation,Software
Reference38 articles.
1. On the Maneuvering of Vehicles
2. Carlisle, B. 1983. An OMNI-directional mobile robot. Developments in Robotics, ed. B. Rocks. Kempston, England: IFS Publishing Ltd., pp. 79-88.
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119 articles.
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