Nonlinear Systems

On forced oscillations in a relay system with hysteresis

Zh. T. Zhusubaliev^a, U. A. Sopuev^b, D. A. Bushuev<sup>c

a</sup> Southwest State University, Kursk
^b Osh State University
^c Belgorod Shukhov State Technological University

Abstract: This paper discusses the phenomenon associated with the forced synchronization (“entrainment of a self-sustained oscillator by an external force”) in a relay system with hysteresis, which manifests itself in the occurrence of periodic motions close to the rhythmic activity of neurons, when packets of fast oscillations are interspersed with intervals of the slow dynamics. To study this phenomenon, we introduce a circle mapping, which, depending on the parameters, can be a circle diffeomorphism or discontinuous map (“gap map”). In both cases, this mapping demonstrates the so-called period-adding bifurcation structure. It is demonstrated that packets number of fast oscillations in the period of periodic motion is determined by the rotation number, and the length of the intervals between the packets may be found of the boundaries of the absorbing interval. The change in the number of pulses in the packet occurs through the border-collision bifurcation.

Keywords: forced relay system with hysteresis, system with two time scales, discontinuous circle mapping, border-collision and period adding bifurcations.

Presented by the member of Editorial Board: N. Kuznetsov

Received: 22.06.2023
Revised: 26.02.2024
Accepted: 04.03.2024

DOI: 10.31857/S0005231024040052

 English version: Automation and Remote Control, 2024, 85:4, 377–386