The r-wise Hamming Distance and its Operational Interpretation for Block Codes

Hsuan Yin Lin; Stefan M. Moser; Po-Ning Chen

doi:10.1109/CISS.2018.8362300

The r-wise Hamming Distance and its Operational Interpretation for Block Codes

Hsuan Yin Lin^*, Stefan M. Moser, Po-Ning Chen

^*Corresponding author for this work

Department of Electrical and Computer Engineering

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

1 Scopus citations

Abstract

We present an extension of the pairwise Hamming distance, the r-wise Hamming distance, and show that it can be used to fully characterize the maximum-likelihood decoding (MLD) error of an arbitrary code used over the binary erasure channel (BEC). Based on these insights, we present a new design criterion for a code: The minimum r-wise Hamming distance. We prove that, for every r ≥ 2, the class of fair weak flip codes achieves the largest minimum r-wise Hamming distance among all codes of equal size M and blocklength n. Thus, it is conjectured that the fair weak flip code is optimal in the sense of achieving the smallest MLD error over the BEC. We confirm this conjecture for M ≤ 4 and all n ≥ 1. For a code size M = 8, we find that the best (in the sense of smallest MLD error) linear code cannot achieve the largest minimum 4-wise Hamming distance and is thus strictly outperformed by the fair weak flip code over the BEC.

Original language	English
Title of host publication	2018 52nd Annual Conference on Information Sciences and Systems, CISS 2018
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	1-6
Number of pages	6
ISBN (Electronic)	9781538605790
DOIs	https://doi.org/10.1109/CISS.2018.8362300
State	Published - 21 May 2018
Event	52nd Annual Conference on Information Sciences and Systems, CISS 2018 - Princeton, United States Duration: 21 Mar 2018 → 23 Mar 2018

Publication series

Name	2018 52nd Annual Conference on Information Sciences and Systems, CISS 2018

Conference

Conference	52nd Annual Conference on Information Sciences and Systems, CISS 2018
Country/Territory	United States
City	Princeton
Period	21/03/18 → 23/03/18

Keywords

Binary erasure channel
maximum likelihood decoding
r-wise Hamming distance
weak flip codes

Access to Document

10.1109/CISS.2018.8362300

Cite this

Lin, H. Y., Moser, S. M., & Chen, P-N. (2018). The r-wise Hamming Distance and its Operational Interpretation for Block Codes. In 2018 52nd Annual Conference on Information Sciences and Systems, CISS 2018 (pp. 1-6). (2018 52nd Annual Conference on Information Sciences and Systems, CISS 2018). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/CISS.2018.8362300

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abstract = "We present an extension of the pairwise Hamming distance, the r-wise Hamming distance, and show that it can be used to fully characterize the maximum-likelihood decoding (MLD) error of an arbitrary code used over the binary erasure channel (BEC). Based on these insights, we present a new design criterion for a code: The minimum r-wise Hamming distance. We prove that, for every r ≥ 2, the class of fair weak flip codes achieves the largest minimum r-wise Hamming distance among all codes of equal size M and blocklength n. Thus, it is conjectured that the fair weak flip code is optimal in the sense of achieving the smallest MLD error over the BEC. We confirm this conjecture for M ≤ 4 and all n ≥ 1. For a code size M = 8, we find that the best (in the sense of smallest MLD error) linear code cannot achieve the largest minimum 4-wise Hamming distance and is thus strictly outperformed by the fair weak flip code over the BEC.",

keywords = "Binary erasure channel, maximum likelihood decoding, r-wise Hamming distance, weak flip codes",

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Lin, HY, Moser, SM & Chen, P-N 2018, The r-wise Hamming Distance and its Operational Interpretation for Block Codes. in 2018 52nd Annual Conference on Information Sciences and Systems, CISS 2018. 2018 52nd Annual Conference on Information Sciences and Systems, CISS 2018, Institute of Electrical and Electronics Engineers Inc., pp. 1-6, 52nd Annual Conference on Information Sciences and Systems, CISS 2018, Princeton, United States, 21/03/18. https://doi.org/10.1109/CISS.2018.8362300

The r-wise Hamming Distance and its Operational Interpretation for Block Codes. / Lin, Hsuan Yin; Moser, Stefan M.; Chen, Po-Ning.
2018 52nd Annual Conference on Information Sciences and Systems, CISS 2018. Institute of Electrical and Electronics Engineers Inc., 2018. p. 1-6 (2018 52nd Annual Conference on Information Sciences and Systems, CISS 2018).

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

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N2 - We present an extension of the pairwise Hamming distance, the r-wise Hamming distance, and show that it can be used to fully characterize the maximum-likelihood decoding (MLD) error of an arbitrary code used over the binary erasure channel (BEC). Based on these insights, we present a new design criterion for a code: The minimum r-wise Hamming distance. We prove that, for every r ≥ 2, the class of fair weak flip codes achieves the largest minimum r-wise Hamming distance among all codes of equal size M and blocklength n. Thus, it is conjectured that the fair weak flip code is optimal in the sense of achieving the smallest MLD error over the BEC. We confirm this conjecture for M ≤ 4 and all n ≥ 1. For a code size M = 8, we find that the best (in the sense of smallest MLD error) linear code cannot achieve the largest minimum 4-wise Hamming distance and is thus strictly outperformed by the fair weak flip code over the BEC.

AB - We present an extension of the pairwise Hamming distance, the r-wise Hamming distance, and show that it can be used to fully characterize the maximum-likelihood decoding (MLD) error of an arbitrary code used over the binary erasure channel (BEC). Based on these insights, we present a new design criterion for a code: The minimum r-wise Hamming distance. We prove that, for every r ≥ 2, the class of fair weak flip codes achieves the largest minimum r-wise Hamming distance among all codes of equal size M and blocklength n. Thus, it is conjectured that the fair weak flip code is optimal in the sense of achieving the smallest MLD error over the BEC. We confirm this conjecture for M ≤ 4 and all n ≥ 1. For a code size M = 8, we find that the best (in the sense of smallest MLD error) linear code cannot achieve the largest minimum 4-wise Hamming distance and is thus strictly outperformed by the fair weak flip code over the BEC.

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KW - maximum likelihood decoding

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ER -

The r-wise Hamming Distance and its Operational Interpretation for Block Codes

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Keywords

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