Locomotive analysis of a single-input three-link snake robot

T. Dear, S. D. Kelly, M. Travers, and H. Choset

Conference Paper, Proceedings of IEEE 55th Conference on Decision and Control (CDC '16), pp. 7542 - 7547, December, 2016

Abstract

When commanding gaits for snake robots and other articulated systems, direct control of all possible joint inputs may not always be necessary or optimal to achieve a locomotive goal. Here we consider a three-link nonholonomic snake robot-an already underactuated system with locomotive capabilities in SE(2)-and reduce its input space to a single actuated joint, replacing the other joint's motor with a passive mass-spring-damper system. We show that the modified system can operate dynamically in addition to kinematically, and that it is possible to find gaits that produces locomotion similar to a fully actuated system. In particular, we describe the emergence of a new type of gait that incorporates the system's singular configurations to produce high locomotive efficiency without incurring unbounded constraint forces.

BibTeX

@conference{Dear-2016-107803,
author = {T. Dear and S. D. Kelly and M. Travers and H. Choset},
title = {Locomotive analysis of a single-input three-link snake robot},
booktitle = {Proceedings of IEEE 55th Conference on Decision and Control (CDC '16)},
year = {2016},
month = {December},
pages = {7542 - 7547},
}

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