Dynamical analysis of a new chaotic system: asymmetric multistability, offset boosting control and circuit realization

In this paper, a new four-dimensional dissipative chaotic system which can produce multiple asymmetric attractors is designed and its dynamical behaviors are analyzed. The basin of attraction reveals the asymmetric multistability of the system. In addition, it is very interesting to observe different types of asymmetric coexisting attractors as the bifurcation parameters change. The spectral entropy complexity chaotic diagrams are used to observe the changes in the sequence complexity when the two bifurcation parameters change simultaneously. Moreover, the difference of the system complexity between the two different initial values is analyzed. In order to facilitate engineering applications, the offset boosting control is introduced to the state variable, and the numerical simulation shows that the offset boosting control scheme can flexibly change the polarity of the chaotic signal. Finally, an analog circuit and a digital circuit were designed to verify the new chaotic system. The new research results will enrich the theoretical basis of multistability, offset boosting control and circuit implementation of chaos.

Automated summary

This paper presents a new four-dimensional dissipative chaotic system capable of producing multiple asymmetric attractors, with analysis on its dynamical behavior. The system exhibits asymmetric multistability in the basin of attraction, and different types of asymmetric coexisting attractors are observed with changes in bifurcation parameters. The spectral entropy complexity chaotic diagrams are used to observe changes in sequence complexity as bifurcation parameters change simultaneously.