English

Broadcast Channel Coding: Algorithmic Aspects and Non-Signaling Assistance

Information Theory 2024-12-10 v2 Computational Complexity math.IT

Abstract

We address the problem of coding for classical broadcast channels, which entails maximizing the success probability that can be achieved by sending a fixed number of messages over a broadcast channel. For point-to-point channels, Barman and Fawzi found in~\cite{BF18} a (1e1)(1-e^{-1})-approximation algorithm running in polynomial time, and showed that it is \textrm{NP}-hard to achieve a strictly better approximation ratio. Furthermore, these algorithmic results were at the core of the limitations they established on the power of non-signaling assistance for point-to-point channels. It is natural to ask if similar results hold for broadcast channels, exploiting links between approximation algorithms of the channel coding problem and the non-signaling assisted capacity region. In this work, we make several contributions on algorithmic aspects and non-signaling assisted capacity regions of broadcast channels. For the class of deterministic broadcast channels, we describe a (1e1)2(1-e^{-1})^2-approximation algorithm running in polynomial time, and we show that the capacity region for that class is the same with or without non-signaling assistance. Finally, we show that in the value query model, we cannot achieve a better approximation ratio than Ω(1m)\Omega\left(\frac{1}{\sqrt{m}}\right) in polynomial time for the general broadcast channel coding problem, with mm the size of one of the outputs of the channel.

Keywords

Cite

@article{arxiv.2310.05515,
  title  = {Broadcast Channel Coding: Algorithmic Aspects and Non-Signaling Assistance},
  author = {Omar Fawzi and Paul Fermé},
  journal= {arXiv preprint arXiv:2310.05515},
  year   = {2024}
}

Comments

30 pages, v2: some clarifications and references added

R2 v1 2026-06-28T12:44:22.800Z