Analysis of a Simplified Hopping Robot-Reference-Cited by-同舟云学术

Analysis of a Simplified Hopping Robot

Published:1991-12 Issue:6 Volume:10 Page:587-605
ISSN:0278-3649
Container-title:The International Journal of Robotics Research
language:en
Short-container-title:The International Journal of Robotics Research

Author:

Koditschek Daniel E.¹,Bühler Martin¹

Affiliation:

1. Center for Systems Science Department of Electrical Engineering Yale University New Haven, Connecticut 06520-1968

Abstract

This article offers some analytical results concerning sim plified models of Raibert's hopper. We represent the task of achieving a recurring hopping height for an actuated "ball" robot as a stability problem in a nonlinear discrete dynamical control system. We model the properties of Raibert's control scheme in a simplified fashion and argue that his strategy leads to closed-loop dynamics governed by a well-known class of functions, the unimodal maps. The rich mathematical literature on this subject greatly advances our ability to determine the presence of an essentially globally attracting fixed point-the formal ren dering of what we intuitively mean by a "correct" strat egy. The motivation for this work is the hope that it will facilitate the development of general design principles for "dynamically dexterous" robots.

Publisher

SAGE Publications

Subject

Applied Mathematics,Artificial Intelligence,Electrical and Electronic Engineering,Mechanical Engineering,Modelling and Simulation,Software

Link

http://journals.sagepub.com/doi/pdf/10.1177/027836499101000601

Reference26 articles.

1. Bühler, M., Koditschek, D.E., and Kindlmann, P.J. 1989. A simple juggling robot: Theory and experimentation. In Hayward, V., and Khatib, O. (eds.): Experimental Robotics I. New York: Springer-Verlag, pp. 35-73.

2. Bühler, M., Koditschek, D.E., and Kindlmann, P.J. 1989 (Tokyo, Aug.). Planning and control of robotic juggling tasks In Miura, H. (ed.): International Symposium on Robotics Research. Cambridge, MA: MIT Press, pp. 270-281.

3. A family of robot control strategies for intermittent dynamical environments

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