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- Title
Design and Analysis of a Group of Correlative and Switchable Dual Memristor Hyperchaotic Systems.
- Authors
Fang, Jie; Wang, Jiabin; Fang, Na; Jiang, Yong
- Abstract
In this paper, a group of correlative and switchable dual memristor hyperchaotic systems consisting of three subsystems is constructed. The common part of the systems is composed of charge-controlled memristor, capacitor and inductor. The switchable parts of the systems are composed of three different flux-controlled memristors. By switching the selection switch, different flux-controlled memristors can be selected to form different subsystems. The chaotic dynamics analysis show that the three subsystems all can be in the hyperchaotic state within the same parameter range. The equivalent analogy electronic circuit of charge-controlled memristor, three flux-controlled memristors, and the whole switchable system are designed. The circuit simulation results are consistent with the numerical simulation results, proving the physical feasibility of the correlative and switchable dual memristor hyperchaotic systems. The structure of the switchable system is simple and easy to implement through electronic circuit elements. One circuit can achieve the functionality of multiple hyperchaotic systems by switching the selection switch. This provides new ideas for integration of chaotic circuits and their applications in the fields of information security, random number generator, signal detection, etc.
- Subjects
RANDOM number generators; CIRCUIT elements; ELECTRONIC circuits; INFORMATION technology security; MEMRISTORS; SWITCHED reluctance motors
- Publication
Journal of Nonlinear Mathematical Physics, 2024, Vol 31, Issue 1, p1
- ISSN
1402-9251
- Publication type
Article
- DOI
10.1007/s44198-024-00204-1