# Joint Source-Channel Coding for the Multiple-Access Channel with   Correlated Sources

**Authors:** Arezou Rezazadeh, Josep Font-Segura, Alfonso Martinez, Albert, Guill\'en i F\`abregas

arXiv: 1901.05778 · 2019-04-19

## TL;DR

This paper analyzes the error exponents in joint source-channel coding for multiple-access channels with correlated sources, introducing message-dependent input distributions and optimal thresholds to improve performance over independent source models.

## Contribution

It introduces a new approach using message-dependent input distributions and threshold optimization to enhance error exponents in correlated source MAC coding.

## Key findings

- Achievable exponent is larger with message-dependent distributions.
- Optimal thresholds significantly improve the error exponent.
- Comparison shows benefits over independent source models.

## Abstract

This paper studies the random-coding exponent of joint source-channel coding for the multiple-access channel with correlated sources. For each user, by defining a threshold, the messages of each source are partitioned into two classes. The achievable exponent for correlated sources with two message-dependent input distributions for each user is determined and shown to be larger than that achieved using only one input distribution for each user. A system of equations is presented to determine the optimal thresholds maximizing the achievable exponent. The obtained exponent is compared with the one derived for the MAC with independent sources.

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Source: https://tomesphere.com/paper/1901.05778