Second-order delay ordinary differential equations, their symmetries and application to a traffic problem

• Published in: Journal of physics. A, Mathematical and theoretical Vol. 54; no. 10; p. 105204
• Main Authors: Dorodnitsyn, Vladimir A, Kozlov, Roman, Meleshko, Sergey V, Winternitz, Pavel
• Format: Journal Article
• Language: English
• Published: 12.03.2021
• ISSN: 1751-8113; 1751-8121
• DOI: 10.1088/1751-8121/abdc81

Abstract This article is the third in a series, the aim of which is to use Lie group theory to obtain exact analytic solutions of delay ordinary differential systems (DODSs). Such a system consists of two equations involving one independent variable x and one dependent variable y . As opposed to ordinary differential equations (ODEs) the variable x figures in more than one point (we consider the case of two points, x and x − ). The dependent variable y and its derivatives figure in both x and x − . Two previous articles were devoted to first -order DODSs, here we concentrate on a large class of second -order ones. We show that within this class the symmetry algebra can be of dimension n with 0 ⩽ n ⩽ 6 for nonlinear DODSs and must be infinite-dimensional for linear or linearizable ones. The symmetry algebras can be used to obtain exact particular group invariant solutions. As a specific application we present some exact solutions of a DODS model of traffic flow.