A Conditional Symmetric Memristive System With Infinitely Many Chaotic Attractors
Jiacheng Gu, Chunbiao Li, Yudi Chen, Herbert Ho‐Ching Iu, Tengfei Lei
Abstract
A chaotic system with a hyperbolic function flux-controlled memristor is designed, which exhibits conditional symmetry and attractor growing. The newly introduced cosine function keeps the polarity balance when some of the variables get polarity inversed and correspondingly conditional symmetric coexisting chaotic attractors are coined. Due to the periodicity of the cosine function, the memristive system with infinitely many coexisting attractors shows attractor growing in some special circumstances. Analog circuit experiment proves the theoretical and numerical analysis.
Topics & Concepts
AttractorChaoticMemristorPolarity (international relations)Function (biology)Trigonometric functionsSymmetry (geometry)Statistical physicsMathematicsTopology (electrical circuits)Mathematical analysisControl theory (sociology)Computer sciencePhysicsQuantum mechanicsArtificial intelligenceBiologyEvolutionary biologyGeneticsControl (management)CombinatoricsGeometryCellChaos control and synchronizationstochastic dynamics and bifurcationNeural dynamics and brain function