PASSIVE CONTROL OF HYPERCHAOTIC LORENZ SYSTEM AND CIRCUIT EXPERIMENTAL ON EWB
DOI10.1142/S0217979207037442zbMath1139.37302OpenAlexW1976534039MaRDI QIDQ3498306
Publication date: 28 May 2008
Published in: International Journal of Modern Physics B (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1142/s0217979207037442
electrical circuithyperchaotic Lorenz system passive network theory asymptotically stabilized circuit
Stabilization of systems by feedback (93D15) Dynamical systems in other branches of physics (quantum mechanics, general relativity, laser physics) (37N20) Strange attractors, chaotic dynamics of systems with hyperbolic behavior (37D45)
Related Items (4)
Uses Software
Cites Work
- Dynamical analysis and impulsive control of a new hyperchaotic system
- Sliding mode control of hyperchaos in Rössler systems.
- Impulsive control of a new chaotic system.
- Adaptive feedback control for a class of chaotic systems
- Speed feedback control of chaotic system
- Controlling hyperchaos in planar systems by adjusting parameters
- Controlling and tracking hyperchaotic Rössler system via active backstepping design
- Output feedback form of Chua's circuit and modular adaptive control of chaos using single measurement
- Controlling hyperchaos in the new hyperchaotic Chen system
- A NEW CHAOTIC SYSTEM AND ITS GENERATION
- A NEW CHAOTIC ATTRACTOR COINED
- DELAYED FEEDBACK CONTROL WITH STATE PREDICTOR FOR CONTINUOUS-TIME CHAOTIC SYSTEMS
- Hyperchaos evolved from the generalized Lorenz equation
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