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Dynamics of constrained differential delay equations

Dynamics of constrained differential delay equations
Dynamics of constrained differential delay equations
A class of forced first-order differential delay equations with piecewise-affine right-hand sides is introduced, as a prototype model for the speed of a motor under control. A simple pure delay form is mainly considered. When forcing is zero, an exact stable periodic solution is exhibited. For large amplitude periodic forcing, existence of stable solutions, whose period is equal to that of the forcing function, is discussed, and these solutions are constructed for square wave forcing. Traditional numerical methods are discussed briefly, and a new approach based on piecewise-polynomial structure is introduced. Simulations are then presented showing a wide range of dynamics for intermediate values of forcing amplitude, when the natural period of the homogeneous equation and the period of the forcing function compete.

differential delay equations, bifurcation theory, control theory
0377-0427
201-215
Norbury, John
78bd9de2-a659-4570-a5cc-1d70e25bd907
Wilson, R. Eddie
01d7f1f2-f8ee-4661-b713-dcefcddb89bd
Norbury, John
78bd9de2-a659-4570-a5cc-1d70e25bd907
Wilson, R. Eddie
01d7f1f2-f8ee-4661-b713-dcefcddb89bd

Norbury, John and Wilson, R. Eddie (2000) Dynamics of constrained differential delay equations. Journal of Computational and Applied Mathematics, 125 (1-2), 201-215. (doi:10.1016/S0377-0427(00)00469-6).

Record type: Article

Abstract

A class of forced first-order differential delay equations with piecewise-affine right-hand sides is introduced, as a prototype model for the speed of a motor under control. A simple pure delay form is mainly considered. When forcing is zero, an exact stable periodic solution is exhibited. For large amplitude periodic forcing, existence of stable solutions, whose period is equal to that of the forcing function, is discussed, and these solutions are constructed for square wave forcing. Traditional numerical methods are discussed briefly, and a new approach based on piecewise-polynomial structure is introduced. Simulations are then presented showing a wide range of dynamics for intermediate values of forcing amplitude, when the natural period of the homogeneous equation and the period of the forcing function compete.

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More information

Published date: 15 December 2000
Keywords: differential delay equations, bifurcation theory, control theory

Identifiers

Local EPrints ID: 184273
URI: http://eprints.soton.ac.uk/id/eprint/184273
DOI: doi:10.1016/S0377-0427(00)00469-6
ISSN: 0377-0427
PURE UUID: 459941a5-e16a-4388-9a90-03ff5881e054

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Date deposited: 07 Jun 2011 09:13
Last modified: 14 Mar 2024 03:07

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Contributors

Author: John Norbury
Author: R. Eddie Wilson

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