English

State-dependent Delay Differential Equations on $H^1$

Classical Analysis and ODEs 2025-02-04 v4 Dynamical Systems Functional Analysis

Abstract

Classically, solution theories for state-dependent delay equations are developed in spaces of continuous or continuously differentiable functions. The former can be technically challenging to apply in as much as suitably Lipschitz continuous extensions of mappings onto the space of continuous functions are required; whereas the latter approach leads to restrictions on the class of initial pre-histories. Here, we establish a solution theory for state-dependent delay equations for arbitrary Lipschitz continuous pre-histories and suitably Lipschitz continuous right-hand sides on the Sobolev space H1H^1. The provided solution theory is independent of previous ones and is based on the contraction mapping principle on exponentially weighted spaces. In particular, initial pre-histories are not required to belong to solution manifolds and the generality of the approach permits the consideration of a large class of functional differential equations even for which the continuity of the right-hand side has constraints on the derivative.

Keywords

Cite

@article{arxiv.2308.04730,
  title  = {State-dependent Delay Differential Equations on $H^1$},
  author = {Johanna Frohberg and Marcus Waurick},
  journal= {arXiv preprint arXiv:2308.04730},
  year   = {2025}
}

Comments

27 pages; references added, typos removed; v3: 36 pages, thoroughly revised version taken all the referee's comments into account. Accepted for publication in the Journal of Differential Equations

R2 v1 2026-06-28T11:51:35.910Z