An Early Preamble Collision Detection Scheme Based on Tagged Preambles for Cellular M2M Random Access

In this paper, we propose an early preamble collision detection (e-PACD) scheme at the first step of random access (RA) procedure based on tagged preambles (PAs), which consist of both PA and tag Zadoff-Chu sequences using different root numbers, respectively. The proposed e-PACD scheme enables fast...

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Published in:IEEE transactions on vehicular technology 2017-07, Vol.66 (7), p.5974-5984
Main Authors: Jang, Han Seung, Kim, Su Min, Park, Hong-Shik, Sung, Dan Keun
Format: Article
Language:English
Subjects:
Cellular communication
Cellular networks
Collision avoidance
Collision dynamics
Data communication
Delay
Delays
Machine-to-machine (M2M) communication
Machine-to-machine communications
Monitoring
Performance enhancement
preamble (PA)
preamble collision detection (PACD)
RA load monitoring
Random access
random access (RA)
tag
Uplink
Zadoff–Chu (ZC) sequence
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cited_by cdi_FETCH-LOGICAL-c357t-1d8890c6c9e2ddf1b77a8017f13d0eff9d3e014f2347523130a1f07a20afeef83
cites cdi_FETCH-LOGICAL-c357t-1d8890c6c9e2ddf1b77a8017f13d0eff9d3e014f2347523130a1f07a20afeef83
container_end_page 5984
container_issue 7
container_start_page 5974
container_title IEEE transactions on vehicular technology
container_volume 66
creator Jang, Han Seung
Kim, Su Min
Park, Hong-Shik
Sung, Dan Keun
description In this paper, we propose an early preamble collision detection (e-PACD) scheme at the first step of random access (RA) procedure based on tagged preambles (PAs), which consist of both PA and tag Zadoff-Chu sequences using different root numbers, respectively. The proposed e-PACD scheme enables faster PA collision detection and notification, compared with the conventional RA scheme. Accordingly, it can reduce the RA delay and remove resource wastes which occur at the third step of the conventional RA procedure. The reduced RA delay achieved by the proposed e-PACD scheme can contribute to an ultralow latency requirement in fifth-generation (5G) cellular networks. In addition, the proposed e-PACD scheme enables the eNodeB to monitor the number of RA-attempting nodes (RA load) on each physical RA channel slot. The PACD probability and the RA load monitoring accuracy are mathematically analyzed, and the RA performance enhancement of the proposed scheme is evaluated in terms of RA success probability, average RA delay, and RA resource efficiency, compared with the conventional RA scheme.
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The proposed e-PACD scheme enables faster PA collision detection and notification, compared with the conventional RA scheme. Accordingly, it can reduce the RA delay and remove resource wastes which occur at the third step of the conventional RA procedure. The reduced RA delay achieved by the proposed e-PACD scheme can contribute to an ultralow latency requirement in fifth-generation (5G) cellular networks. In addition, the proposed e-PACD scheme enables the eNodeB to monitor the number of RA-attempting nodes (RA load) on each physical RA channel slot. 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subjects Cellular communication
Cellular networks
Collision avoidance
Collision dynamics
Data communication
Delay
Delays
Machine-to-machine (M2M) communication
Machine-to-machine communications
Monitoring
Performance enhancement
preamble (PA)
preamble collision detection (PACD)
RA load monitoring
Random access
random access (RA)
tag
Uplink
Zadoff–Chu (ZC) sequence
title An Early Preamble Collision Detection Scheme Based on Tagged Preambles for Cellular M2M Random Access
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