Backstepping control design for motion coordination of self-propelled vehicles

Author

Mellish, Rochelle ; Paley, Derek A.

Author_Institution

Dept. of Aerosp. Eng., Univ. of Maryland, College Park, MD, USA

fYear

2010

fDate

15-17 Dec. 2010

Firstpage

5468

Lastpage

5473

Abstract

Motion coordination of autonomous vehicles has applications from target surveillance to climate monitoring. Previous research has yielded stabilizing control laws for a self-propelled-vehicle model with first-order rotational dynamics; however, this model may not adequately describe the rotational dynamics of vehicles in the atmosphere or ocean. This paper describes the design of backstepping algorithms for the decentralized control of self-propelled vehicles with second-order rotational dynamics. We design backstepping controls for planar parallel and circular formations in the absence of a flowfield and in the presence of a steady, uniform flowfield. These controls extend prior results to a more realistic vehicle model.

Keywords

Lyapunov methods; control system synthesis; decentralised control; mobile robots; motion control; vehicle dynamics; autonomous vehicles; backstepping algorithm; backstepping control design; circular formation; climate monitoring; decentralized control; motion coordination; planar parallel formation; second-order rotational dynamics; self-propelled vehicle; steady uniform flowfleld; target surveillance; Backstepping; Dynamics; Lyapunov method; Mathematical model; Synchronization; Vehicle dynamics; Vehicles;

fLanguage

English

Publisher

ieee

Conference_Titel

Decision and Control (CDC), 2010 49th IEEE Conference on

Conference_Location

Atlanta, GA

ISSN

0743-1546

Print_ISBN

978-1-4244-7745-6

Type

conf

DOI

10.1109/CDC.2010.5717256

Filename

5717256