Chaotic Modeling and Simulation

An International Journal of Nonlinear Science

ISSN 2241-0503


About the Journal

Journal Topics
Editorial Board

The Journal topics include all the field of nonlinear analysis and simulation of chaotic processes in every field of nonlinear science.

Instructions to Authors

The aim is to facilitate interdisciplinary research and encourage the dissemination and spread of chaotic theory to real life applications.


The Journal welcomes papers both theoretical and empirical. Simulation and computer techniques may be proposed to explore chaotic aspects

Journal Issues

A more detailed analysis of the main journal topics follows:




1. Chaos and Nonlinear Dynamics
Nonlinear dynamics of continuous, discontinuous and hybrid systems
Nonlinear dynamics and chaos in engineering applications
Qualitative and quantitative analysis of nonlinear dynamic systems
Synchronization and control of dynamical systems
Classical Deterministic Chaos
Dynamical processes: theory and applications
Complex dynamical systems
Extremes in Chaotic Systems
Differential equations and new transforms applications
Nonlinear fractional partial differential equations
Integral equations and applications
Topological dynamics
Asymptotic Methods
Numerical and geometrical methods in nonlinear dynamics
Computational Aspects
Computer aided symbolic methods in dynamics
Symmetries and perturbation methods
Chaos: critical behavior and universality
Liapunov functions
Phase diagrams
Bifurcation theory
Analysis of bifurcations and chaos
Hopf Bifurcation, sequence of period-doubling bifurcations and chaos
Chaotic models and attractors (Logistic, Hénon, Lorenz, Rössler,...)
Chaotic network dynamics

2. Stochastic Chaos
Stochastic Chaos versus Deterministic
Bifurcation to stochastic chaos
Stochastic global bifurcation in perturbed Hamiltonian systems
Stochastic chaos in Fokker-Planck equations
Stochastic chaos and its control
Bifurcation and Chaotic Analysis of Stochastic Duffing System
Stochastic chaos: an analogue of quantum chaos
Heterogeneity and stochastic chaos in stock markets
Stochastic chaos in Ecology
The transition from deterministic chaos to a stochastic process
Chaotic Transitions in Deterministic and Stochastic Dynamical Systems
Stochasticity and deterministic chaos
Nonlinear Stochastic Systems

3. Chemical Chaos
Chemical reaction chaos
Belousov-Zhabotinsky Reactions
Reaction diffusion patterns
Spatially extended systems and pattern formation

4. Data Analysis and Chaos
Analysis of chaotic data
Chaos and time-series analysis
Principal Component Analysis and Chaos
Data analysis and spatiotemporal chaos
Chaos and innovation
Polynomial chaos
Embbeding chaos

5. Hydrodynamics, Turbulence and Plasmas
Turbulent Transport
Turbulence simulation
Entropy of particles on a turbulent sea
Rayleigh-Benard convection
Fluid Mechanics and Turbulence
Chaotic advection
Chaotic advection in oscillatory flows
Von Karman flow
Von Karman vortex streets

6. Optics and Chaos
Nonlinear optics
Laser optics and chaos
The Ikeda attractor
Quantum chaos 

7. Chaotic Oscillations and Circuits
Chaotic delay equations
Chaotic communication
Chaotic oscillators
Phenomena and criteria of chaotic oscillations
Nonlinear Vibrations and Applications
Van der Pol oscillators
Chaotic synchronization
CHUA'S oscillators
Synchronization and delay between signals
Nonlinear filtering and communication
Control of oscillations and chaos
Control of Chaos and Synchronization
Chaos and multi channel communication 

8. Chaos in Climate Dynamics
Chaos in simplified Climate Models (The Lorenz model)
Weather forecasts
Earth's climate

9. Geophysical Flows
Geodesic flows
Spatially extended systems
Spatiotemporal pattern formation and chaos
Vortex ripples in sand
Coupled map lattice and spatiotemporal pattern formation
Self-Organized criticality
Multifractal geophysics

10. Biology and Chaos
Computational Biology and Chaos
Fractal geometry in Biology
Chaos control in Biology
Nonlinear dynamics of protein folding

11. Neurophysiology and Chaos
Neurons and Chaos
Chaos in the Brain
Chaos in the Heart
Parameter estimation for neuron models

12. Hamiltonian systems
Dynamics of conservative and dissipative systems
Flow equations for Hamiltonians
Ergodic theory
Hamiltonian and Quantum Chaos

13. Chaos in Astronomy and Astrophysics
Chaos in the Solar system
N-body Chaos
Dynamics and Optimization of Multibody Systems
Chaos in Galaxies
The Hénon-Heiles system
Order and chaos in galaxies
Galaxy simulations
Nonlinearity in Plasma and Astrophysics

14. Chaos and Solitons
Integrable Systems and Solitons
The Korteweg de Vries equation
Bifurcation and chaos in the generalized Korteweg-de Vries equation
The generalized KdV-Burgers' equation
The Zakharov-Kuznetsov equation
The sine-Gordon equation
The generalized Burgers-Huxley equation
Darboux transformations for soliton equations

15. Micro- and Nano- Electro-Mechanical Systems
Electrospun Nanofibers and applications
Nonlinear phenomena in electrospinning
Micro egg-shaped product via electrospinning

16. Neural Networks
Fuzzy neural networks
Discrete-time recurrent neural networks
Delayed neural networks
Fuzzy bilinear systems
Fuzzy control

17. Chaos, Ecology and Economy
Bifurcations and chaos in ecology
Nonlinear dynamics in spatial systems
Evolution on eco-epidemiological systems
Surviving chaos and change
Oscillations and chaos in dynamic economic models
Control of chaotic population dynamics
Sustainable development

18. Chaos in Language and Arts
Language grammar
Language learning
Child speech
Second language speech

19. Algorithmic Music Composition
Chaotic compositions
Nonlinear models and compositions
Deterministic or stochastic models of algorithmic compositions
Mathematical analysis of compositions and applications
Compositions with geometric forms