An amplitude controllable hyperjerk system is constructed for chaos producing by introducing a nonlinear factor of memristor. In this case, the amplitude control is realized from a single coefficient in the memristor. The hyperjerk system has a line of equilibria and also shows extreme multistability indicated by the initial value-associated bifurcation diagram. FPGA-based circuit realization is also given for physical verification. Finally, the proposed memristive hyperjerk system is successfully predicted with artificial neural networks for AI based engineering applications.

中文翻译：

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忆阻性超冲击混沌系统：振幅控制，FPGA设计和人工神经网络预测

通过引入忆阻器的非线性因子，构造了一个振幅可控的超冲击系统，用于产生混沌。在这种情况下，振幅控制是通过忆阻器中的单个系数实现的。超加速系统具有一条平衡线，并且还显示了由初始值相关的分叉图表示的极端多重稳定性。还给出了基于FPGA的电路实现以进行物理验证。最后，利用人工神经网络成功地预测了拟议的忆阻超跳动系统，以用于基于AI的工程应用。