Transient Reviving Dynamics with an Exact Solution for Delay Differential Equations
Abstract
We present a new approach to examine transient dynamics in a class of non-autonomous delay differential equations. Exact solutions for these equations are obtained using the Lambert W function alongside an appropriately chosen initial function. These solutions provide a reliable approximation for transient dynamics when the initial functions are not markedly distinct. We explore a non-autonomous equation that exhibits a distinctive phenomenon of reviving dynamics as an illustrative example. The derived exact solutions effectively encapsulate the qualitative characteristics of this reviving dynamics over various delay values.
Keywords
Cite
@article{arxiv.2312.04848,
title = {Transient Reviving Dynamics with an Exact Solution for Delay Differential Equations},
author = {Kenta Ohira and Toru Ohira},
journal= {arXiv preprint arXiv:2312.04848},
year = {2024}
}
Comments
submitted for a publication: Ver2; extensively revised with a new figure and added references; Further major revision with modified main equation and figures (Published version)