English

Covert Communication over Adversarially Jammed Channels

Information Theory 2021-06-25 v3 math.IT

Abstract

Suppose that a transmitter Alice potentially wishes to communicate with a receiver Bob over an adversarially jammed binary channel. An active adversary James eavesdrops on their communication over a binary symmetric channel (BSC(q)), and may maliciously flip (up to) a certain fraction p of their transmitted bits based on his observations. We consider a setting where the communication must be simultaneously covert as well as reliable, i.e., James should be unable to accurately distinguish whether or not Alice is communicating, while Bob should be able to correctly recover Alice's message with high probability regardless of the adversarial jamming strategy. We show that, unlike the setting with passive adversaries, covert communication against active adversaries requires Alice and Bob to have a shared key (of length at least Omega(log n)) even when Bob has a better channel than James. We present lower and upper bounds on the information-theoretically optimal throughput as a function of the channel parameters, the desired level of covertness, and the amount of shared key available. These bounds match for a wide range of parameters of interest. We also develop a computationally efficient coding scheme (based on concatenated codes) when the amount of shared key available is Ω(nlogn)\Omega(\sqrt{n} \log n), and further show that this scheme can be implemented with much less amount of shared key when the adversary is assumed to be computationally bounded.

Keywords

Cite

@article{arxiv.1805.02426,
  title  = {Covert Communication over Adversarially Jammed Channels},
  author = {Qiaosheng Zhang and Mayank Bakshi and Sidharth Jaggi},
  journal= {arXiv preprint arXiv:1805.02426},
  year   = {2021}
}

Comments

Accepted for publication in IEEE Transactions on Information Theory

R2 v1 2026-06-23T01:47:01.582Z