Bounded Estimation Over Finite-State Channels: Relating Topological Entropy and Zero-Error Capacity

A Saberi; F Farokhi; GN Nair

Journal article

Bounded Estimation Over Finite-State Channels: Relating Topological Entropy and Zero-Error Capacity

A Saberi, F Farokhi, GN Nair

IEEE Transactions on Automatic Control | Published : 2022

DOI: 10.1109/TAC.2021.3120674

Abstract

We investigate state estimation of linear systems over channels having a finite state not known by the transmitter or receiver. We show that similar to memoryless channels, zero-error capacity is the right figure of merit for achieving bounded estimation errors. We then consider finite-state, worst-case versions of the common erasure, and additive noise channels models, in which the noise is governed by a finite-state machine without any statistical structure. Upper and lower bounds on their zero-error capacities are derived, revealing a connection with the topological entropy of the channel dynamics. Separate necessary and sufficient conditions for bounded linear state estimation errors via..

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University of Melbourne Researchers

Farhad Farokhi Author

Girish Nair Author

Related Projects (1)

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Grants

Awarded by Australian Research Council

Funding Acknowledgements

This work was supported by the Australian Research Council via Future Fellowship under Grant FT140100527. This paper was presented in part at the IEEE International Symposium on Information Theory, Paris, France, July 2019 and IEEE Internationa on Information Theory, Los Angeles, CA, June 2020 [1], [2]. Recommended by Associate Editor Shun-ichi Azuma.