Litcius/Paper detail

Initials-Boosted Coexisting Chaos in a 2-D Sine Map and Its Hardware Implementation

Han Bao, Zhongyun Hua, Ning Wang, Lei Zhu, Mo Chen, Bocheng Bao

2020IEEE Transactions on Industrial Informatics195 citationsDOI

Abstract

When chaotic sequences are used in engineering applications, their oscillating amplitudes need to be adjusted nondestructively. To accommodate this issue, this article presents a simple 2-D sine map. It can not only generate the chaotic sequences with high complexity, but also boost the oscillating amplitudes by switching their initial states. To show the complex dynamics of the sine map, this article investigates its control parameters-related dynamical behaviors and initials-boosted coexisting bifurcations using numerical methods. The results demonstrate that the oscillating amplitudes of chaotic sequences generated by the sine map can be nondestructively controlled by switching their initial states. This makes the sine map more suitable for many chaos-based engineering applications. Furthermore, we develop a microcontroller-hardware test platform to implement the sine map. The experimental results show that the platform synchronously outputs multichannel initials-controlled chaotic sequences. We also design a pseudorandom number generator to explore the application of the sine map.

Topics & Concepts

SineChaoticSine waveCHAOS (operating system)MicrocontrollerAmplitudeComputer scienceStandard mapGenerator (circuit theory)Control theory (sociology)AlgorithmMathematicsPhysicsEngineeringComputer hardwareArtificial intelligenceElectrical engineeringControl (management)VoltagePower (physics)Computer securityQuantum mechanicsGeometryChaos control and synchronizationChaos-based Image/Signal EncryptionCellular Automata and Applications