Antiperiodic solutions to van der Pol equations with state-dependent impulses

Antiperiodic solutions to van der Pol equations with state-dependent impulses

In this article we give sufficient conditions for the existence of an antiperiodic solution to the van der Pol equation $$ x'(t) = y(t), \quad y'(t) = \mu \Big(x(t) - \frac{x^3(t)}{3}\Big)' - x(t) + f(t) \text{for a. e. }t \in \mathbb{R}, $$ subject to a finite number of state-depende...

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Bibliographic Details
Published in:Electronic journal of differential equations Vol. 2017; no. 247; pp. 1 - 17
Main Authors: Irena Rachunkova, Jan Tomecek
Format: Journal Article
Language:English
Published: Texas State University 06-10-2017
Subjects:
antiperiodic solution
distributional equation
existence
periodic distributions
state-dependent impulses
van der Pol equation
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Summary:In this article we give sufficient conditions for the existence of an antiperiodic solution to the van der Pol equation $$ x'(t) = y(t), \quad y'(t) = \mu \Big(x(t) - \frac{x^3(t)}{3}\Big)' - x(t) + f(t) \text{for a. e. }t \in \mathbb{R}, $$ subject to a finite number of state-dependent impulses $$ \Delta y(\tau_i(x)) = \mathcal{J}_i(x), \quad i = 1,\ldots,m\,. $$ Our approach is based on the reformulation of the problem as a distributional differential equation and on the Schauder fixed point theorem. The functionals $\tau_i$ and $\mathcal{J}_i$ need not be Lipschitz continuous nor bounded. As a direct consequence, we obtain an existence result for problem with fixed-time impulses.
ISSN:1072-6691