A robust adaptive control design for chaotic continuous-time systems
説明
This paper presents a new nonlinear robust adaptive control design for continuous-time chaotic systems in the presence of disturbances. The scheme of adaptation is based on the concept of dynamic certainty equivalence and incorporates the design of a fixed (non-adaptive) compensator in the error feedback loop. The fixed compensator is used to realize the high performance of tracking. The key features of our control design are: (1) use of H/sub /spl infin// minimization design for the fixed compensator; and (2) use of a robust high-order estimator with dead-zone. By using our proposed nonlinear adaptive controller, it can be shown that the chaotic signal of the system dynamics tends to be driven into a well controlled periodic state or a steady state, and conversely, the periodic signal asymptotically converges to chaotic signal. Then it can be seen that our scheme is one of the unified approaches for controlling chaos. The mathematical proof of stability for the total closed loop system is guaranteed. Finally in order to verify the effectiveness of the proposed method, numerical simulations are shown.
収録刊行物
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- Proceedings of 35th IEEE Conference on Decision and Control
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Proceedings of 35th IEEE Conference on Decision and Control 3 2968-2973, 2002-12-24
IEEE