Spatial models of bistability in biological collectives

Author

Paley, Derek A. ; Leonard, Naomi Ehrich ; Sepulchre, Rodolphe ; Couzin, Iain D.

Author_Institution

Univ. of Maryland, College Park

fYear

2007

fDate

12-14 Dec. 2007

Firstpage

4851

Lastpage

4856

Abstract

We explore collective behavior in biological systems using a cooperative control framework. In particular, we study a hysteresis phenomenon in which a collective switches from circular to parallel motion under slow variation of the neighborhood size in which individuals tend to align with one another. In the case that the neighborhood radius is less than the circular motion radius, both circular and parallel motion can occur. We provide Lyapunov-based analysis of bistability of circular and parallel motion in a closed-loop system of self-propelled particles with coupled-oscillator dynamics.

Keywords

Lyapunov methods; biocontrol; biology; closed loop systems; motion control; stability; Lyapunov-based analysis; biological collective bistability; biological system collective behavior; circular motion radius; closed-loop system; collective switch; cooperative control framework; coupled-oscillator dynamics; parallel motion bistability; self-propelled particle; spatial model; Aerospace engineering; Biological control systems; Biological system modeling; Biological systems; Hysteresis; Mathematical model; Motion analysis; Motion control; Switches; USA Councils;

fLanguage

English

Publisher

ieee

Conference_Titel

Decision and Control, 2007 46th IEEE Conference on

Conference_Location

New Orleans, LA

ISSN

0191-2216

Print_ISBN

978-1-4244-1497-0

Electronic_ISBN

0191-2216

Type

conf

DOI

10.1109/CDC.2007.4434523

Filename

4434523