FPGA-Based Implementation of a New 3-D Multistable Chaotic Jerk System with Two Unstable Balance Points

S. Vaidyanathan, E. Tlelo-Cuautle, Khaled Benkouider, A. Sambas, Brisbane Ovilla-Martínez
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引用次数: 1

Abstract

Mechanical jerk systems have applications in several areas, such as oscillators, microcontrollers, circuits, memristors, encryption, etc. This research manuscript reports a new 3-D chaotic jerk system with two unstable balance points. It is shown that the proposed mechanical jerk system exhibits multistability with coexisting chaotic attractors for the same set of system constants but for different initial states. A bifurcation analysis of the proposed mechanical jerk system is presented to highlight the special properties of the system with respect to the variation of system constants. A field-programmable gate array (FPGA) implementation of the proposed mechanical jerk system is given by synthesizing the discrete equations that are obtained by applying one-step numerical methods. The hardware resources are reduced by performing pipeline operations, and, finally, the paper concludes that the experimental results of the proposed mechanical jerk system using FPGA-based design show good agreement with the MATLAB simulations of the same system.
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基于fpga的新型双不稳定平衡点三维多稳定混沌激振系统实现
机械抽动系统在许多领域都有应用,如振荡器、微控制器、电路、忆阻器、加密等。本文报道了一种新的具有两个不稳定平衡点的三维混沌系统。结果表明,该系统具有混沌吸引子共存的多重稳定性,且系统常数相同,但初始状态不同。对所提出的机械抽动系统进行了分岔分析,以突出该系统在系统常数变化方面的特殊性质。通过综合采用一步数值方法得到的离散方程,给出了该系统的现场可编程门阵列(FPGA)实现方案。通过进行管道操作,减少了硬件资源,最后,本文得出基于fpga设计的机械抽油机系统的实验结果与MATLAB仿真结果吻合较好。
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