Model-free control of Lorenz chaos using an approximate optimal control strategy
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Publication:1948224
DOI10.1016/j.cnsns.2012.05.024zbMath1352.34090OpenAlexW2016323462MaRDI QIDQ1948224
Bu Liu, Shuai Li, Yangming Li, Timmy Murray
Publication date: 2 May 2013
Published in: Communications in Nonlinear Science and Numerical Simulation (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cnsns.2012.05.024
Dynamical systems in control (37N35) Discrete approximations in optimal control (49M25) Chaos control for problems involving ordinary differential equations (34H10) Stabilization of solutions to ordinary differential equations (34H15)
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- Investigation on evolutionary optimization of chaos control
- Minimum entropy control of chaos via online particle swarm optimization method
- Multi-variable control of chaos using PSO-based minimum entropy control
- On the evolution of deterministic non-periodic behavior of an airfoil
- Design of adaptive sliding mode controller for chaos synchronization with uncertainties
- Design of an adaptive fuzzy model based controller for chaotic dynamics in Lorenz systems with uncertainty
- Pragmatical adaptive chaos control from a new double van der Pol system to a new double Duffing system
- Fuzzy adaptive synchronization of uncertain chaotic systems
- Stabilizing periodic orbits of chaotic systems using fuzzy control of Poincaré map
- Shrinking-horizon dynamic programming
- Receding horizon control of nonlinear systems
- Chaos Synthesis by Evolutionary Algorithms
- Controlling chaos
- Identification and control of unknown chaotic systems via dynamic neural networks
- CONTROLLING CHAOTIC DYNAMICS USING BACKSTEPPING DESIGN WITH APPLICATION TO THE LORENZ SYSTEM AND CHUA'S CIRCUIT
- Deterministic Nonperiodic Flow
- Three steps to chaos. II. A Chua's circuit primer
- Fuzzy Control of Chaos
- Separable Dynamic Programming and Approximate Decomposition Methods
- Handbook of Chaos Control
- Controlling Chen's chaotic attractor using backstepping design based on parameters identification
