Generalized model for steady-state bifurcations without parameters in memristor-based oscillators with lines of equilibria

TL;DR

This paper explores how classical bifurcations like pitchfork, transcritical, and saddle-node occur in systems with lines of equilibria, using memristor-based oscillators and various memristor characteristics.

Contribution

It extends bifurcation analysis to systems with lines of equilibria, incorporating memristor models with different characteristics and effects.

Findings

Bifurcation scenarios are demonstrated in memristor-based oscillators.

The type of memristor characteristic influences bifurcation behavior.

Results are applicable to systems with lines of equilibria beyond electronic circuits.

Abstract

We demonstrate how the pitchfork, transcritical and saddle-node bifurcations of steady states observed in dynamical systems with a finite number of isolated equilibrium points occur in systems with lines of equilibria. The exploration is carried out by using the numerical simulation and linear stability analysis applied to a model of a memristor-based oscillator. First, all the discussed bifurcation scenarios are considered in the context of systems including Chua's memristor with a piecewise-smooth characteristic. Then the memristor characteristic is changed to a function that is smooth everywhere. Finally, the action of the memristor forgetting effect is taken into consideration. The presented results are obtained for electronic circuit models, but the considered bifurcation phenomena can be exhibited by systems with a line of equilibria of any nature.