Limit cycle behavior and model reduction of an oscillating fish-like robot

Beau Pollard, Vitaliy Fedonyuk, and Phanindra Tallapragada

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

Abstract

The design and control of underwater robots has to contend with the coupled robot-hydrodynamic interactions. A key aspect of this coupled dynamics is the interaction of the robot with the fluid via the vorticity that is created by the robot’s motion. In this paper we develop a simplified and very low dimensional model of this interaction. This is done recognizing that the vortex shedding is a nonholonomic constraint. We apply the harmonic balance approach to analyze and compare the limit cycle in the dynamics of the fish-shaped body propelled by a periodic input with that of a Chaplygin sleigh, a well known nonholonomic system. The dynamics on the limit cycles lead to a very low dimensional model of the swimming of the fish-shaped body that could be very useful from the perspective of controlling a swimming robot.

BibTeX

@conference{Pollard-2018-129839,
author = {Beau Pollard and Vitaliy Fedonyuk and Phanindra Tallapragada},
title = {Limit cycle behavior and model reduction of an oscillating fish-like robot},
booktitle = {Proceedings of ASME Dynamic Systems and Control Conference (DSCC '18)},
year = {2018},
month = {September},
}

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