Morse Decomposition of Scalar Differential Equations with State-Dependent Delay

Morse Decomposition of Scalar Differential Equations with State-Dependent Delay

We consider state-dependent delay differential equations of the form \begin{aligned} \dot{x}(t) = f(x(t), x(t - r(x_t))), \end{aligned} x ˙ ( t ) = f ( x ( t ) , x ( t - r ( x t ) ) ) , where f is continuously differentiable and fulfills a negative feedback condition in the delayed term. Under suita...

Teljes leírás

Elmentve itt :
Bibliográfiai részletek
Szerzők: Bartha Ferenc Ágoston
Garab Ábel
Krisztin Tibor
Dokumentumtípus: Cikk
Megjelent: 2025
Sorozat:JOURNAL OF DYNAMICS AND DIFFERENTIAL EQUATIONS
Tárgyszavak:
Matematika
doi:10.1007/s10884-025-10414-w

mtmt:35803034
Online Access:http://publicatio.bibl.u-szeged.hu/37675
Leíró adatok
Tartalmi kivonat:We consider state-dependent delay differential equations of the form \begin{aligned} \dot{x}(t) = f(x(t), x(t - r(x_t))), \end{aligned} x ˙ ( t ) = f ( x ( t ) , x ( t - r ( x t ) ) ) , where f is continuously differentiable and fulfills a negative feedback condition in the delayed term. Under suitable conditions on r and f , we construct a Morse decomposition of the global attractor, giving some insight into the global dynamics. The Morse sets in the decomposition are closely related to the level sets of an integer-valued Lyapunov function that counts the number of sign changes along solutions on intervals of length of the delay. This generalizes former results for constant delay. We also give two major types of state-dependent delays for which our results apply.
ISSN:1040-7294

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