Planar Motion Control, Coordination and Dynamic Entrainment in Chaplygin Beanies

S. Kelly, R. Abrajan, J. Grover, M. Travers, and H. Choset

Conference Paper, Proceedings of ASME Dynamic Systems and Control Conference (DSCC '18), Vol. 3, September, 2018

Abstract

The Chaplygin beanie is a single-input robotic vehicle for which partial planar motion control can be achieved by exploiting a simple nonholonomic constraint. A previous paper suggested a strategy for such motion control. In the present paper, this strategy is validated experimentally and extended to the context of multi-vehicle coordination. It is then shown that when the plane on which two such vehicles operate is translationally compliant, energy transfer between the two can enable a mechanism whereby one (operating under control) may entrain the other (operating passively), partly coordinating their motion. As an extension to this result, it is further demonstrated that a pair of passive vehicles operating on a translationally compliant platform can eventually attain the same heading when released from their deformed configurations.

BibTeX

@conference{Kelly-2018-119952,
author = {S. Kelly and R. Abrajan and J. Grover and M. Travers and H. Choset},
title = {Planar Motion Control, Coordination and Dynamic Entrainment in Chaplygin Beanies},
booktitle = {Proceedings of ASME Dynamic Systems and Control Conference (DSCC '18)},
year = {2018},
month = {September},
volume = {3},
}

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