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Bibliographic Details
Main Authors: Mei, Haoran, Peng, Limei, Ho, Pin-Han
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2401.04539
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author Mei, Haoran
Peng, Limei
Ho, Pin-Han
author_facet Mei, Haoran
Peng, Limei
Ho, Pin-Han
contents This article introduces a novel framework of multi-user detection (MUD) for K-repetition grant-free non-orthogonal multiple access (K-GF-NOMA), called $α$ iterative interference cancellation diversity slotted aloha ($α$-IIC-DSA). The proposed framework targets at a simple yet effective decoding process where the AP can intelligently exploit the correlation among signals received at different resource blocks (RBs) so as to generate required multi-access interference (MAI) for realizing the signal-interference cancellation (SIC) based MUD. By keeping all operation and hardware complexity at the access point (AP), the proposed framework is applicable to the scenarios with random and uncoordinated access by numerous miniature mMTC devices (MTCDs). Numerical experiments are conducted to gain deep understanding on the performance of launching the proposed framework for K-GF-NOMA.
format Preprint
id arxiv_https___arxiv_org_abs_2401_04539
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A Novel Framework of K-repetition Grant-free Access via Diversity Slotted Aloha (DSA)
Mei, Haoran
Peng, Limei
Ho, Pin-Han
Information Theory
Networking and Internet Architecture
This article introduces a novel framework of multi-user detection (MUD) for K-repetition grant-free non-orthogonal multiple access (K-GF-NOMA), called $α$ iterative interference cancellation diversity slotted aloha ($α$-IIC-DSA). The proposed framework targets at a simple yet effective decoding process where the AP can intelligently exploit the correlation among signals received at different resource blocks (RBs) so as to generate required multi-access interference (MAI) for realizing the signal-interference cancellation (SIC) based MUD. By keeping all operation and hardware complexity at the access point (AP), the proposed framework is applicable to the scenarios with random and uncoordinated access by numerous miniature mMTC devices (MTCDs). Numerical experiments are conducted to gain deep understanding on the performance of launching the proposed framework for K-GF-NOMA.
title A Novel Framework of K-repetition Grant-free Access via Diversity Slotted Aloha (DSA)
topic Information Theory
Networking and Internet Architecture
url https://arxiv.org/abs/2401.04539