Open Science Research Excellence

ICCTS 2020 : International Conference on Chaos Theory and Systems

Kuala Lumpur, Malaysia
August 21 - 22, 2020

Call for Papers

ICCTS 2020 : International Conference on Chaos Theory and Systems is the premier interdisciplinary platform for the presentation of new advances and research results in the fields of Chaos Theory and Systems. The conference will bring together leading academic scientists, researchers and scholars in the domain of interest from around the world. Topics of interest for submission include, but are not limited to:
  • Chaos Theory: Modeling, Simulation and Applications
  • Chaos, Control, Modelling and Simulation
  • Chaotic Modeling, Simulation and Applications
  • 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
  • Chaotic network dynamics
  • Fractals
  • 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
  • Chemical Chaos
  • Chemical reaction chaos
  • Belousov-Zhabotinsky Reactions
  • Reaction diffusion patterns
  • Pattern-Formation
  • Spatially extended systems and pattern formation
  • 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
  • Hydrodynamics, Turbulence and Plasmas
  • Turbulence
  • 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
  • Optics and Chaos
  • Nonlinear optics
  • Laser optics and chaos
  • The Ikeda attractor
  • Quantum chaos
  • 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
  • SHIL?NIKOV Chaos
  • 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
  • Chaos in Climate Dynamics
  • Chaos in simplified Climate Models
  • Weather forecasts
  • Earth's climate
  • 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
  • Biology and Chaos
  • Computational Biology and Chaos
  • Fractal geometry in Biology
  • Chaos control in Biology
  • Nonlinear dynamics of protein folding
  • Biomechanics
  • Neurophysiology and Chaos
  • Neurons and Chaos
  • Chaos in the Brain
  • Chaos in the Heart
  • Neurocomputation
  • Parameter estimation for neuron models
  • Hamiltonian systems
  • Dynamics of conservative and dissipative systems
  • Flow equations for Hamiltonians
  • Ergodic theory
  • Hamiltonian and Quantum Chaos
  • Chaos in Astronomy and Astrophysics
  • Chaos in the Solar system
  • N-body Chaos
  • Dynamics and Optimization of Multibody Systems
  • Chaos in Galaxies
  • The H?non-Heiles system
  • Order and chaos in galaxies
  • Galaxy simulations
  • Nonlinearity in Plasma and Astrophysics
  • 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
  • Micro- and Nano- Electro-Mechanical Systems
  • Electrospun Nanofibers and applications
  • Nonlinear phenomena in electrospinning
  • Micro egg-shaped product via electrospinning
  • Neural Networks
  • Fuzzy neural networks
  • Discrete-time recurrent neural networks
  • Delayed neural networks
  • Fuzzy bilinear systems
  • Fuzzy control
  • 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
  • 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
  • Chaos in Language
  • Language development
  • Phonological development
  • Language learning
  • Second language acquisition
  • Language structure