One-Shot Achievable Secrecy Rate Regions for Quantum Interference   Wiretap Channel

Hadi Aghaee; Bahareh Akhbari

arXiv:2301.03375·cs.IT·January 10, 2023

One-Shot Achievable Secrecy Rate Regions for Quantum Interference Wiretap Channel

Hadi Aghaee, Bahareh Akhbari

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TL;DR

This paper derives achievable secrecy rate regions for quantum interference channels with classical inputs in a one-shot setting, using superposition, rate splitting, and simultaneous decoding.

Contribution

It introduces a novel encoding and decoding scheme combining superposition, rate splitting, and simultaneous decoding for quantum interference channels.

Findings

01

Achievable secrecy rate regions are characterized for quantum interference channels.

02

The proposed scheme improves security and efficiency in quantum communication.

03

The method is applicable in one-shot quantum communication scenarios.

Abstract

In this paper, we want to derive achievable secrecy rate regions for quantum interference channel with classical inputs under one-shot setting. The main idea to this end is to use the combination of superposition and rate splitting for encoding scheme and constructing a decoding scheme based on simultaneous decoding.

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Taxonomy

TopicsQuantum Computing Algorithms and Architecture · Quantum Information and Cryptography · Quantum-Dot Cellular Automata