A Second-Order Achievable Rate Region for Gaussian Multi-Access Channels via a Central Limit Theorem for Functions

Author

MolavianJazi, Ebrahim ; Laneman, J. Nicholas

Author_Institution

Univ. of Notre Dame, Notre Dame, IN, USA

Volume

61

Issue

12

fYear

2015

Firstpage

6719

Lastpage

6733

Abstract

Motivated by the growing application of multi-access networks with stringent delay constraints, we investigate the Gaussian multiple-access channel (MAC) in the finite blocklength regime. By applying central limit theorem (CLT) approximations to non-asymptotic information-spectrum inner bounds, we obtain second-order achievable rate regions for the Gaussian MAC with a positive average error probability and per-codeword power constraints. Our achievability results use spherical inputs uniformly distributed on the power shells, which lead to summations of dependent information random variables. However, we conduct the analysis through a convenient yet powerful form of the CLT, called the CLT for functions.

Keywords

Gaussian channels; approximation theory; radio networks; wireless channels; CLT approximations; Gaussian MAC; Gaussian multiaccess channels; MAC; central limit theorem; finite blocklength; information random variables; multiaccess networks; nonasymptotic information spectrum inner bounds; percodeword power constraints; positive average error probability; second order achievable rate region; stringent delay constraints; Channel coding; Decoding; Dispersion; Mutual information; Random variables; Yttrium; Random coding and threshold decoding; change of measure; delta method; dispersion matrix; low-latency communications; mutual information random variable; non-asymptotic achievability bounds; power shell input; second-order coding rate;

fLanguage

English

Journal_Title

Information Theory, IEEE Transactions on

Publisher

ieee

ISSN

0018-9448

Type

jour

DOI

10.1109/TIT.2015.2492547

Filename

7300429