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Main Authors: Ritter, Frederik, Mandelbaum, Jonathan, Fengler, Alexander, Jäkel, Holger, Schmalen, Laurent
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.12186
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author Ritter, Frederik
Mandelbaum, Jonathan
Fengler, Alexander
Jäkel, Holger
Schmalen, Laurent
author_facet Ritter, Frederik
Mandelbaum, Jonathan
Fengler, Alexander
Jäkel, Holger
Schmalen, Laurent
contents In this paper, we analyze the formation of small stopping sets in joint factor graphs describing a frame-asynchronous two-user transmission. Furthermore, we propose an algorithm to completely avoid small stopping sets in the joint factor graph over the entire range of symbol delays. The error floor caused by these stopping sets is completely mitigated. Our key observation is that, while the order of bits in the codeword is irrelevant in a single-user environment, it turns out to be crucial in an asynchronous, unsourced two-user system. Subsequently, our algorithm finds a reordering of variable nodes which avoids the smallest stopping set in the joint graph. We show that further improvements can be achieved when girth optimization of the single-user graphs by progressive edge growth (PEG) is used in combination with our proposed algorithm. Starting with a randomized code construction with optimized degree distribution, our simulation results show that PEG followed by the proposed algorithm can improve the average per user probability of error in a noiseless channel by almost two orders of magnitude for a broad range of frame delays.
format Preprint
id arxiv_https___arxiv_org_abs_2501_12186
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Removal of Small Weight Stopping Sets for Asynchronous Unsourced Multiple Access
Ritter, Frederik
Mandelbaum, Jonathan
Fengler, Alexander
Jäkel, Holger
Schmalen, Laurent
Information Theory
In this paper, we analyze the formation of small stopping sets in joint factor graphs describing a frame-asynchronous two-user transmission. Furthermore, we propose an algorithm to completely avoid small stopping sets in the joint factor graph over the entire range of symbol delays. The error floor caused by these stopping sets is completely mitigated. Our key observation is that, while the order of bits in the codeword is irrelevant in a single-user environment, it turns out to be crucial in an asynchronous, unsourced two-user system. Subsequently, our algorithm finds a reordering of variable nodes which avoids the smallest stopping set in the joint graph. We show that further improvements can be achieved when girth optimization of the single-user graphs by progressive edge growth (PEG) is used in combination with our proposed algorithm. Starting with a randomized code construction with optimized degree distribution, our simulation results show that PEG followed by the proposed algorithm can improve the average per user probability of error in a noiseless channel by almost two orders of magnitude for a broad range of frame delays.
title Removal of Small Weight Stopping Sets for Asynchronous Unsourced Multiple Access
topic Information Theory
url https://arxiv.org/abs/2501.12186