Complexity

Recent Advances in Modeling, Analysis, and Synchronization of Chaotic Systems


Publishing date
01 Jan 2020
Status
Closed
Submission deadline
13 Sep 2019

Lead Editor

1Aristotle University of Thessaloniki, Thessaloniki, Greece

2National Institute of Technology, Jamshedpur, India

3Nevşehir Hacı Bektaş Veli University, Nevsehir, Turkey

4Phenikaa University, Hanoi, Vietnam

This issue is now closed for submissions.
More articles will be published in the near future.

Recent Advances in Modeling, Analysis, and Synchronization of Chaotic Systems

This issue is now closed for submissions.
More articles will be published in the near future.

Description

Chaotic systems emerge in a plethora of disciplines, from physics to engineering, biology, chemistry, medicine, and economics. The appearance of chaotic behavior in such a wide spectrum of applications makes the analysis and control of chaotic systems a cutting edge field of study. Furthermore, chaotic behavior can appear in continuous and discrete time, as well as in fractional order systems. In order to exploit all possible engineering applications, open problems about chaotic systems need to be addressed, by proposing novel theoretical and practical approaches focused on modeling, simulation, synthesis, design, control, and circuit implementation. The complexity analysis of chaotic systems is also an important aspect of their behavior, since the need to develop chaotic systems with higher complexity, such as hyperchaotic systems or systems with hidden attractors, is becoming essential for applications.

A major issue that arises in the control of chaotic systems, which has been extensively studied the last two decades, is the problem of synchronization. This problem appears when two or more systems are coupled. Due to the sensitivity of chaotic systems to initial conditions, achieving synchronization is a very difficult task and has been a subject of ongoing research due to its innumerable applications, including but not limited to secure communications, image encryption, lasers, human pathology, neurobiology, epidemiology, robotics, and engineering. Many synchronization techniques have been developed over the years, including active control, sliding mode control, backstepping control, adaptive control, and observer design.

The aim of this special issue is to explore recent trends and developments in the modeling, analysis, and synchronization of chaotic systems. Contributions can address all types of chaotic systems, their bifurcation analysis, and different synchronization methods, as well as their practical applications. Review articles focused on a specific system type or specific synchronization methods are also welcome.

Potential topics include but are not limited to the following:

  • Modeling and analysis of chaotic systems
  • Continuous and discrete time chaotic systems
  • Fractional order chaotic systems
  • Chaotic systems with self-excited and hidden attractors
  • Chaotic systems with delay
  • Chaos synchronization and antisynchronization methods
  • Applications of chaos synchronization in biology, engineering, physics, and economics

Articles

  • Special Issue
  • - Volume 2020
  • - Article ID 4306261
  • - Research Article

Minimal Diagnosis and Diagnosability of Discrete-Event Systems Modeled by Automata

Xiangfu Zhao | Gianfranco Lamperti | ... | Xiangrong Tong
  • Special Issue
  • - Volume 2020
  • - Article ID 9106132
  • - Research Article

Study on Amplitude Modulation Principle of Chaotic System

Jian-Rong Du | Chun-Lai Li | ... | Wen Li
  • Special Issue
  • - Volume 2020
  • - Article ID 6786832
  • - Research Article

Analysis, Stabilization, and DSP-Based Implementation of a Chaotic System with Nonhyperbolic Equilibrium

Xuan-Bing Yang | Yi-Gang He | ... | Chang-Qing Liu
  • Special Issue
  • - Volume 2020
  • - Article ID 5796529
  • - Research Article

Coexisting Three-Scroll and Four-Scroll Chaotic Attractors in a Fractional-Order System by a Three-Scroll Integer-Order Memristive Chaotic System and Chaos Control

Xikui Hu | Ping Zhou
  • Special Issue
  • - Volume 2019
  • - Article ID 3827201
  • - Research Article

Adaptive Multi-Switching Synchronization of High-Order Memristor-Based Hyperchaotic System with Unknown Parameters and Its Application in Secure Communication

Zhili Xiong | Shaocheng Qu | Jing Luo
  • Special Issue
  • - Volume 2019
  • - Article ID 2941835
  • - Research Article

Enhancing Ikeda Time Delay System by Breaking the Symmetry of Sine Nonlinearity

Xiaojing Gao
  • Special Issue
  • - Volume 2019
  • - Article ID 2709820
  • - Research Article

The Synchronization of N Cascade-Coupled Chaotic Systems

Pengyu Li | Juan Du | ... | Bowen Jia
  • Special Issue
  • - Volume 2019
  • - Article ID 9863982
  • - Research Article

Degradation Analysis of Chaotic Systems and their Digital Implementation in Embedded Systems

Rodrigo Méndez-Ramírez | Adrian Arellano-Delgado | ... | César Cruz-Hernández
  • Special Issue
  • - Volume 2019
  • - Article ID 4835379
  • - Research Article

Bursting and Synchronization of Coupled Neurons under Electromagnetic Radiation

Xiaoyu Hu | Chongxin Liu
  • Special Issue
  • - Volume 2019
  • - Article ID 5904801
  • - Research Article

Research on Grid Scroll Chaotic Extended Sequence Algorithm and Its Circuit Implementation for F-OFDM System

Yingjie Ma | Ya Li | ... | Yatao Yang
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 Journal metrics
Acceptance rate43%
Submission to final decision64 days
Acceptance to publication35 days
CiteScore3.200
Impact Factor2.462
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