After reviewing a number of results from geometric singular perturbation theory, we discuss several approaches to obtain periodic solutions in a slow manifold.Regarding nonhyperbolic transitions we consider relaxation oscillations and canard-like solutions. The results are illustrated by prey-predator systems. DOI : http://dx.doi.org/10.22342/jims.13.1.76.73-9
We study a predator–prey model with different characteristic time scales for the prey and predator p...
AbstractThe concept of slow manifold has been introduced in meteorology and is broadly used for shor...
PreprintInternational audienceFast-slow systems are studied usually by ''geometrical dissection". Th...
Invited lecture at Konferensi Nasional Matematika XIII, Semarang, 24-27 juli, 2006; to be publ. in J...
After reviewing a number of results from geometric singular perturbation theory, we give an example...
Equations with periodic coefficients for singularly perturbed growth can be analysed by using fast a...
Relaxation oscillations are highly non-linear oscillations, which appear to feature many important b...
This paper is concerned with the geometry of slow manifolds of a dynamical system with one fast and ...
Equations with periodic coefficients for singularly perturbed growth can be analysed by using fast a...
In the past few decades, the predator–prey model has played an important role in the dynamic behavio...
Abstract. Approximately invariant elliptic slow manifolds are constructed for the Lorenz– Krishnamur...
We investigate the organization of mixed-mode oscillations in the self-coupled FitzHugh-Nagumo syste...
We consider slow-fast systems of differential equations, in which both the slow and fast variables a...
AbstractWe consider slow–fast systems of differential equations, in which both the slow and fast var...
Abstract. The geometric approach to singular perturbation problems is based on powerful methods from...
We study a predator–prey model with different characteristic time scales for the prey and predator p...
AbstractThe concept of slow manifold has been introduced in meteorology and is broadly used for shor...
PreprintInternational audienceFast-slow systems are studied usually by ''geometrical dissection". Th...
Invited lecture at Konferensi Nasional Matematika XIII, Semarang, 24-27 juli, 2006; to be publ. in J...
After reviewing a number of results from geometric singular perturbation theory, we give an example...
Equations with periodic coefficients for singularly perturbed growth can be analysed by using fast a...
Relaxation oscillations are highly non-linear oscillations, which appear to feature many important b...
This paper is concerned with the geometry of slow manifolds of a dynamical system with one fast and ...
Equations with periodic coefficients for singularly perturbed growth can be analysed by using fast a...
In the past few decades, the predator–prey model has played an important role in the dynamic behavio...
Abstract. Approximately invariant elliptic slow manifolds are constructed for the Lorenz– Krishnamur...
We investigate the organization of mixed-mode oscillations in the self-coupled FitzHugh-Nagumo syste...
We consider slow-fast systems of differential equations, in which both the slow and fast variables a...
AbstractWe consider slow–fast systems of differential equations, in which both the slow and fast var...
Abstract. The geometric approach to singular perturbation problems is based on powerful methods from...
We study a predator–prey model with different characteristic time scales for the prey and predator p...
AbstractThe concept of slow manifold has been introduced in meteorology and is broadly used for shor...
PreprintInternational audienceFast-slow systems are studied usually by ''geometrical dissection". Th...