一类具有隐藏吸引子的新型混沌电路的极端多元稳定性和极端事件

Atefeh Ahmadi, S. Parthasarathy, Nikhil Pal, K. Rajagopal, S. Jafari, E. Tlelo-Cuautle
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引用次数: 2

摘要

极端多稳定系统在系统及其参数保持不变的情况下,通过改变初始条件,可以显示出动态的动态特性和无穷多个共存的吸引子。另一方面,社会上极端事件的频率正在增加,这可能对全世界的人类生活产生灾难性的影响。因此,能够模拟此类行为的复杂系统对于避免或控制各种极端事件非常重要。此外,隐吸引子是非线性动力学中的一个关键问题,因为它们无法用常规方法定位和识别。因此,寻找这样的系统是一项至关重要的任务。本文提出了一种新的五维自治混沌系统,该系统具有一条平衡线,并产生隐藏吸引子。此外,该系统可以同时表现出极端多稳定性和极端事件。通过动力学分析工具,如庞加莱剖面、连接曲线、分岔图、李亚普诺夫指数谱和吸引盆地,研究了该系统的迷人特征。通过模拟电路的设计,验证了系统的可靠性,使混沌电路可以应用于许多工程领域。
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Extreme Multistability and Extreme Events in a Novel Chaotic Circuit with Hidden Attractors
Extreme multistable systems can show vibrant dynamical properties and infinitely many coexisting attractors generated by changing the initial conditions while the system and its parameters remain unchanged. On the other hand, the frequency of extreme events in society is increasing which could have a catastrophic influence on human life worldwide. Thus, complex systems that can model such behaviors are very significant in order to avoid or control various extreme events. Also, hidden attractors are a crucial issue in nonlinear dynamics since they cannot be located and recognized with conventional methods. Hence, finding such systems is a vital task. This paper proposes a novel five-dimensional autonomous chaotic system with a line of equilibria, which generates hidden attractors. Furthermore, this system can exhibit extreme multistability and extreme events simultaneously. The fascinating features of this system are examined by dynamical analysis tools such as Poincaré sections, connecting curves, bifurcation diagrams, Lyapunov exponents spectra, and attraction basins. Moreover, the reliability of the introduced system is confirmed through analog electrical circuit design so that this chaotic circuit can be employed in many engineering fields.
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