First and Second Order Asymptotics in Covert Communication
March 03, 2017 Β· Declared Dead Β· π IEEE Transactions on Information Theory
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Authors
Mehrdad Tahmasbi, Matthieu R. Bloch
arXiv ID
1703.01362
Category
cs.IT: Information Theory
Citations
91
Venue
IEEE Transactions on Information Theory
Last Checked
4 months ago
Abstract
We study the first- and second-order asymptotics of covert communication over binary-input DMC for three different covertness metrics and under maximum probability of error constraint. When covertness is measured in terms of the relative entropy between the channel output distributions induced with and without communication, we characterize the exact first- and second-order asymptotics of the number of bits that can be reliably transmitted with a maximum probability of error less than $Ξ΅$ and a relative entropy less than $Ξ΄$. When covertness is measured in terms of the variational distance between the channel output distributions or in terms of the probability of missed detection for fixed probability of false alarm, we establish the exact first-order asymptotics and bound the second-order asymptotics. PPM achieves the optimal first-order asymptotics for all three metrics, as well as the optimal second-order asymptotics for relative entropy. The main conceptual contribution of this paper is to clarify how the choice of a covertness metric impacts the information-theoretic limits of covert communications. The main technical contribution underlying our results is a detailed expurgation argument to show the existence of a code satisfying the reliability and covertness criteria.
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