A novel variable-order fractional chaotic map and its dynamics

Tang 唐, Zhouqing 周青; He 贺, Shaobo 少波; Wang 王, Huihai 会海; Sun 孙, Kehui 克辉; Yao 姚, Zhao 昭; Wu 吴, Xianming 先明

doi:10.1088/1674-1056/ad1a93

Chinese Phys. B

2024

DOI: 10.1088/1674-1056/ad1a93

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A novel variable-order fractional chaotic map and its dynamics

Zhouqing 周青 Tang 唐,

Shaobo 少波 He 贺,

Huihai 会海 Wang 王

et al.

Abstract: In recent years, fractional-order chaotic maps have been paid more attention in publications because of the memory effect. This paper presents a novel variable-order fractional sine map (VFSM) based on the discrete fractional calculus. Specially, the order is defined as an iterative function that incorporates the current state of the system. By analyzing phase diagrams, time sequences, bifurcations, Lyapunov exponents and fuzzy entropy complexity, the dynamics of the proposed map are investigated comparing wit… Show more

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Cited by 2 publications

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Dynamical analysis, control, boundedness, and prediction for a fractional-order financial risk system

Yang 杨,

Zheng 郑,

Yu 余

et al. 2024

Chinese Phys. B

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This paper delves into the dynamical analysis, chaos control, Mittag-Leffler Boundedness (MLB) and forecasting a Fractional-Order Financial Risk (FOFR) system through an absolute function term. To this end, the FOFR system is first proposed, and the Adomian Decomposition Method (ADM) is employed to resolve this fractional-order system.The stability of equilibrium points and the corresponding control schemes are assessed, and several classical tools such as Lyapunov Exponents (LE), Bifurcation Diagrams, Complexity Analysis (CA), and 0-1 test are further extended to analyze the dynamical behaviors of FOFR. Then the global Mittag-Lefﬂer Attractive Set (MLAS) and Mittag-Lefﬂer Positive Invariant Set (MLPIS) for the proposed Financial Risk (FR) system are discussed. Finally, a proficient reservoir-computing (RC) method is applied to forecast the temporal evolution of the complex dynamics for the proposed system, and some simulations are carried out to show the effectiveness and feasibility of present scheme.

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Dynamical analysis, control, boundedness, and prediction for a fractional-order financial risk system

Yang 杨,

Zheng 郑,

Yu 余

et al. 2024

Chinese Phys. B

View full text Add to dashboard Cite

show abstract

Symmetric Pseudo-Multi-Scroll Attractor and Its Application in Mobile Robot Path Planning

Li,

et al. 2024

Symmetry

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The symmetric multi-scroll strange attractor has shown great potential in chaos-based applications due to its high complexity in phase space. Here, the approach of symmetrization is employed for attractor doubling to generate pseudo-multi-scroll attractors in a discrete map, where a carefully selected offset constant is the key to organizing coexisting attractors. By choosing the Hénon map to generate the pseudo-multi-scroll attractor and implementing the digital circuit on a microcontroller, this study fills a significant gap in the research on discrete chaotic systems. The complexity performance is further validated using a pseudo-random number generator, demonstrating substantial academic contributions to the field of chaos theory. Additionally, a pseudo-multi-scroll attractor-based squirrel search algorithm is first developed, showcasing its practical application in mobile robot path planning. This work not only advances the theoretical understanding of chaotic systems but also provides practical methods for implementation in digital systems, offering valuable insights for policy-making in advanced robotic systems and intelligent manufacturing.

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A novel variable-order fractional chaotic map and its dynamics

Cited by 2 publications

References 52 publications

Dynamical analysis, control, boundedness, and prediction for a fractional-order financial risk system

Dynamical analysis, control, boundedness, and prediction for a fractional-order financial risk system

Symmetric Pseudo-Multi-Scroll Attractor and Its Application in Mobile Robot Path Planning

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