Optimal nonlinear observers for chaotic synchronization with message embedded. (English) Zbl 1204.94058
Summary: This paper presents an optimal nonlinear observer for synchronizing the transmitter-receiver pair with guaranteed optimal performance. In the proposed scheme, a generalized nonlinear state-space observer via uniform matrix transformations is constructed to estimate the transmitter state and the information signal, simultaneously. A nonlinear optimal design approach is used to synchronize chaotic systems. Solving the Hamilton-Jacobi-Bellman (H-J-B) equations we can obtain a linear optimal feedback scheme for piecewise-linear chaotic systems. Moreover, a robust scheme derived from the \(H _{\infty }\) optimization theory improves the synchronization performance of general nonlinear chaotic systems by suppressing the influence of their high order residual terms. Finally, two numerical simulation examples are illustrated by the chaotic Chua’s circuit system and the Lorenz chaotic system to demonstrate the effectiveness of our scheme.
MSC:
| 94A40 | Channel models (including quantum) in information and communication theory |
| 37N35 | Dynamical systems in control |
| 93B36 | \(H^\infty\)-control |
| 37D45 | Strange attractors, chaotic dynamics of systems with hyperbolic behavior |
| 93B52 | Feedback control |
Keywords:
chaos synchronization; secure communication; quadratic optimal control; \(H _{\infty }\) optimizationReferences:
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