Practical codes for queueing channels: An algebraic, state-space, message-passing approach

Todd P. Coleman; Negar Kiyavash

doi:10.1109/ITW.2008.4578677

Practical codes for queueing channels: An algebraic, state-space, message-passing approach

Todd P. Coleman
, Negar Kiyavash

Industrial and Enterprise Systems Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This paper examines more closely the probabilistic dynamics of queueing timing channels and discusses a new practical coding scheme which is tailored to them and approaches capacity. We consider using sparse graph coset codes over nonbinary finite fields. We use a shaping technique to map algebraic symbols to non-uniform codewords using the inverse cumulative distribution of a target random variable. We exploit the graphical structure of the conditional distribution of the departure process given the arrival process to arrive at a Forney Factor graph of the joint likelihood that has graphical structure reminiscent of coding on inter-symbol interference channels with LDPC codes. We show through simulation that this technique, when using low-complexity iterative decoding, is capacity-approaching.

Original language	English (US)
Title of host publication	2008 IEEE Information Theory Workshop, ITW
Pages	318-322
Number of pages	5
DOIs	https://doi.org/10.1109/ITW.2008.4578677
State	Published - 2008
Event	2008 IEEE Information Theory Workshop, ITW - Porto, Portugal Duration: May 5 2008 → May 9 2008

Publication series

Name	2008 IEEE Information Theory Workshop, ITW

Other

Other	2008 IEEE Information Theory Workshop, ITW
Country/Territory	Portugal
City	Porto
Period	5/5/08 → 5/9/08

ASJC Scopus subject areas

Information Systems
Electrical and Electronic Engineering

Online availability

10.1109/ITW.2008.4578677

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title = "Practical codes for queueing channels: An algebraic, state-space, message-passing approach",

abstract = "This paper examines more closely the probabilistic dynamics of queueing timing channels and discusses a new practical coding scheme which is tailored to them and approaches capacity. We consider using sparse graph coset codes over nonbinary finite fields. We use a shaping technique to map algebraic symbols to non-uniform codewords using the inverse cumulative distribution of a target random variable. We exploit the graphical structure of the conditional distribution of the departure process given the arrival process to arrive at a Forney Factor graph of the joint likelihood that has graphical structure reminiscent of coding on inter-symbol interference channels with LDPC codes. We show through simulation that this technique, when using low-complexity iterative decoding, is capacity-approaching.",

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doi = "10.1109/ITW.2008.4578677",

language = "English (US)",

isbn = "9781424422708",

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AB - This paper examines more closely the probabilistic dynamics of queueing timing channels and discusses a new practical coding scheme which is tailored to them and approaches capacity. We consider using sparse graph coset codes over nonbinary finite fields. We use a shaping technique to map algebraic symbols to non-uniform codewords using the inverse cumulative distribution of a target random variable. We exploit the graphical structure of the conditional distribution of the departure process given the arrival process to arrive at a Forney Factor graph of the joint likelihood that has graphical structure reminiscent of coding on inter-symbol interference channels with LDPC codes. We show through simulation that this technique, when using low-complexity iterative decoding, is capacity-approaching.

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DO - 10.1109/ITW.2008.4578677

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BT - 2008 IEEE Information Theory Workshop, ITW

Y2 - 5 May 2008 through 9 May 2008

ER -

Practical codes for queueing channels: An algebraic, state-space, message-passing approach

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