Pseudospectral discretization of nonlinear delay equations: New prospects for numerical bifurcation analysis

Publication date

2016

Authors

Breda, D.
Diekmann, O.ORCID 0000-0003-4695-7601ISNI 0000000108765903
Gyllenberg, M.
Scarabel, F.
Vermiglio, R.

Editors

Advisors

Supervisors

Document Type

Article
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Abstract

We apply the pseudospectral discretization approach to nonlinear delay models described by delay differential equations, renewal equations, or systems of coupled renewal equations and delay differential equations. The aim is to derive ordinary differential equations and to investigate the stability and bifurcation of equilibria of the original model by available software packages for continuation and bifurcation for ordinary differential equations. Theoretical and numerical results confirm the effectiveness and the versatility of the approach, opening a new perspective for the bifurcation analysis of delay equations, in particular coupled renewal and delay differential equations.

Keywords

Delay differential equations, Numerical bifurcation, Physiologically structured populations, Pseudospectral method, Renewal equations, Stability of equilibria, Volterra delay equations, Analysis, Modelling and Simulation

Citation

Breda, D, Diekmann, O, Gyllenberg, M, Scarabel, F & Vermiglio, R 2016, 'Pseudospectral discretization of nonlinear delay equations : New prospects for numerical bifurcation analysis', SIAM Journal on Applied Dynamical Systems, vol. 15, no. 1, pp. 1-23. https://doi.org/10.1137/15M1040931