Estimation of Nonlinear Dynamic Systems Over Communication Channels

Remote observation of the state trajectory of nonlinear dynamic systems over limited capacity communication channels is studied. It is shown that two extreme cases are possible: Either the system is fully observable or the error in estimation blows up. The key observation is that such behavior is de...

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Bibliographic Details
Published in:IEEE transactions on automatic control 2018-09, Vol.63 (9), p.3024-3031
Main Authors: Sanjaroon, Vahideh, Farhadi, Alireza, Motahari, Abolfazl Seyed, Khalaj, Babak H.
Format: Article
Language:English
Subjects:
AWGN channels
Capacity
Channel capacity
Channels
Communication channels
Communications systems
Dynamical systems
Entropy
Liapunov exponents
Lyapunov exponents
nonlinear dynamic systems
Nonlinear dynamical systems
Nonlinear systems
Observability
Observability (systems)
Random noise
Remote observing
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Summary:Remote observation of the state trajectory of nonlinear dynamic systems over limited capacity communication channels is studied. It is shown that two extreme cases are possible: Either the system is fully observable or the error in estimation blows up. The key observation is that such behavior is determined by the relationship between the Shannon capacity and the Lyapunov exponents; the well-known characterizing parameters of a communication channel on one side, and a dynamic system from the other side. In particular, it is proved that for nonlinear systems with initial state x_0, the minimum capacity of an additive white Gaussian noise channel required for full observation of the system in the mean square sense is \sum _i\kappa _i(x_0)\Delta _i (x_0), where \Delta _i (x_0) s and \kappa _i(x_0) s denote distinct Lyapunov exponents and their multiplicity numbers, respectively. Conversely, if the capacity is less than E[\sum _i \kappa _i(x_0)\Delta _i (x_0)], then observation is impossible. In order to show the universality of the result, we obtain the same observability conditions for the digital noiseless channel and the packet erasure channel in sure and almost sure senses, respectively.
ISSN:0018-9286
1558-2523
DOI:10.1109/TAC.2018.2797192