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Finite Block-Length Achievable Rates for Queuing Timing Channels

Thomas Riedl
2011
Conference paper
Abstract

The exponential server timing channel is known to be the simplest, and in some sense canonical, queuing timing channel. The capacity of this infinite-memory channel is known. Here, we discuss practical finite-length restrictions on the codewords and attempt to understand the amount of maximal rate that can be achieved for a target error probability. By using Markov chain analysis, we prove a lower bound on the maximal channel coding rate achievable at blocklength nn and error probability ϵ\epsilon is approximated by Cn1/2σQ1(ϵ)C- n^{-1/2} \sigma Q^{-1}(\epsilon) where QQ denotes the Q-function and σ2\sigma^2 is the asymptotic variance of the underlying Markov chain. A closed form expression for σ2\sigma^2 is given.

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