Entanglement-Assisted Covert Communication via Qubit Depolarizing Channels

Elyakim Zlotnick; Boulat A. Bash; Uzi Pereg

doi:10.1109/TIT.2025.3546191

Entanglement-Assisted Covert Communication via Qubit Depolarizing Channels

Elyakim Zlotnick, Boulat A. Bash, Uzi Pereg

Electrical and Computer Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

We consider entanglement-assisted communication over the qubit depolarizing channel under the security requirement of covert communication, where the transmission itself must be concealed from detection by an adversary. Previous work showed that (Formula presented) information bits can be reliably and covertly transmitted in n channel uses without entanglement assistance. However, Gagatsos et al. (2020) showed that entanglement assistance can increase this scaling to (Formula presented) for continuous-variable bosonic channels. Here, we present a finite-dimensional parallel, and show that (Formula presented) covert bits can be transmitted reliably over n uses of a qubit depolarizing channel. The coding scheme employs “weakly” entangled states such that their squared amplitude scales as (Formula presented).

Original language	English
Pages (from-to)	3693-3706
Number of pages	14
Journal	IEEE Transactions on Information Theory
Volume	71
Issue number	5
DOIs	https://doi.org/10.1109/TIT.2025.3546191
State	Published - 2025

Keywords

covert communication
entanglement assistance
Quantum communication
square-root law violation

ASJC Scopus subject areas

Information Systems
Computer Science Applications
Library and Information Sciences

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10.1109/TIT.2025.3546191

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title = "Entanglement-Assisted Covert Communication via Qubit Depolarizing Channels",

abstract = "We consider entanglement-assisted communication over the qubit depolarizing channel under the security requirement of covert communication, where the transmission itself must be concealed from detection by an adversary. Previous work showed that (Formula presented) information bits can be reliably and covertly transmitted in n channel uses without entanglement assistance. However, Gagatsos et al. (2020) showed that entanglement assistance can increase this scaling to (Formula presented) for continuous-variable bosonic channels. Here, we present a finite-dimensional parallel, and show that (Formula presented) covert bits can be transmitted reliably over n uses of a qubit depolarizing channel. The coding scheme employs “weakly” entangled states such that their squared amplitude scales as (Formula presented).",

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author = "Elyakim Zlotnick and Bash, {Boulat A.} and Uzi Pereg",

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AB - We consider entanglement-assisted communication over the qubit depolarizing channel under the security requirement of covert communication, where the transmission itself must be concealed from detection by an adversary. Previous work showed that (Formula presented) information bits can be reliably and covertly transmitted in n channel uses without entanglement assistance. However, Gagatsos et al. (2020) showed that entanglement assistance can increase this scaling to (Formula presented) for continuous-variable bosonic channels. Here, we present a finite-dimensional parallel, and show that (Formula presented) covert bits can be transmitted reliably over n uses of a qubit depolarizing channel. The coding scheme employs “weakly” entangled states such that their squared amplitude scales as (Formula presented).

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Entanglement-Assisted Covert Communication via Qubit Depolarizing Channels

Abstract

Keywords

ASJC Scopus subject areas

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