Achievable rate-region for $3-$User Classical-Quantum Interference Channel using Structured Codes
Abstract
We consider the problem of characterizing an inner bound to the capacity region of a user classical-quantum interference channel (CQIC). The best known coding scheme for communicating over CQICs is based on unstructured random codes and employs the techniques of message splitting and superposition coding. For classical user interference channels (ICs), it has been proven that coding techniques based on coset codes - codes possessing algebraic closure properties - strictly outperform all coding techniques based on unstructured codes. In this work, we develop analogous techniques based on coset codes for toCQICs - a subclass of user CQICs. We analyze its performance and derive a new inner bound to the capacity region of toCQICs that subsume the current known largest and strictly enlarges the same for identified examples.
Cite
@article{arxiv.2103.03978,
title = {Achievable rate-region for $3-$User Classical-Quantum Interference Channel using Structured Codes},
author = {Touheed Anwar Atif and Arun Padakandla and S. Sandeep Pradhan},
journal= {arXiv preprint arXiv:2103.03978},
year = {2021}
}
Comments
18 pages. arXiv admin note: text overlap with arXiv:2103.02082