Enhancing vehicular communication using 5g-enabled smart collaborative networking

Dong, P; Zheng, T; Yu, S; Zhang, H; Yan, X

Enhancing vehicular communication using 5g-enabled smart collaborative networking

Dong, P Zheng, T Yu, S

Zhang, H Yan, X

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Publisher:: Institute of Electrical and Electronics Engineers
Publication Type:: Journal Article
Citation:: IEEE Wireless Communication, 2017, 24, (6), pp. 72-79
Issue Date:: 2017-12-01

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Field	Value	Language
dc.contributor.author	Dong, P
dc.contributor.author	Zheng, T
dc.contributor.author	Yu, S https://orcid.org/0000-0003-4485-6743
dc.contributor.author	Zhang, H
dc.contributor.author	Yan, X
dc.date.accessioned	2022-08-16T04:40:32Z
dc.date.available	2022-08-16T04:40:32Z
dc.date.issued	2017-12-01
dc.identifier.citation	IEEE Wireless Communication, 2017, 24, (6), pp. 72-79
dc.identifier.issn	1536-1284
dc.identifier.issn	1558-0687
dc.identifier.uri	http://hdl.handle.net/10453/160331
dc.description.abstract	5G is increasingly becoming a prominent technology promoting the development of mobile networks. Meanwhile, the ever increasing demands for vehicular networks are driven by a variety of vehicular services and application scenarios. Therefore, a new architectural design, which can harness the benefits of 5G for vehicular networks, can take a solid step toward increasing bandwidth and improving reliability for vehicular communications. In this article, we focus on the innovations of a novel and practical 5G-enabled smart collaborative vehicular network (SCVN) architecture, based on our long-Term research and practice in this field. SCVN not only considers the various technical features of a 5G network, but also includes different mobile scenarios of vehicular networks. We have performed extensive experiments in various scenarios, including high-density vehicles moving at low or high speed across dense cells, to evaluate the performance of the proposed architecture. The real-world experimental results demonstrate that SCVN achieves better performance in throughput, reliability, and handover latency compared to its counterparts.
dc.language	English
dc.publisher	Institute of Electrical and Electronics Engineers
dc.relation.ispartof	IEEE Wireless Communication
dc.relation.isbasedon	10.1109/MWC.2017.1600375
dc.rights	info:eu-repo/semantics/closedAccess
dc.subject	0805 Distributed Computing, 0906 Electrical and Electronic Engineering, 1005 Communications Technologies
dc.subject.classification	Networking & Telecommunications
dc.title	Enhancing vehicular communication using 5g-enabled smart collaborative networking
dc.type	Journal Article
utslib.citation.volume	24
utslib.for	0805 Distributed Computing
utslib.for	0906 Electrical and Electronic Engineering
utslib.for	1005 Communications Technologies
pubs.organisational-group	/University of Technology Sydney
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology/School of Computer Science
utslib.copyright.status	closed_access	*
pubs.consider-herdc	false
dc.date.updated	2022-08-16T04:40:30Z
pubs.issue	6
pubs.publication-status	Published
pubs.volume	24
utslib.citation.issue	6

Abstract:

5G is increasingly becoming a prominent technology promoting the development of mobile networks. Meanwhile, the ever increasing demands for vehicular networks are driven by a variety of vehicular services and application scenarios. Therefore, a new architectural design, which can harness the benefits of 5G for vehicular networks, can take a solid step toward increasing bandwidth and improving reliability for vehicular communications. In this article, we focus on the innovations of a novel and practical 5G-enabled smart collaborative vehicular network (SCVN) architecture, based on our long-Term research and practice in this field. SCVN not only considers the various technical features of a 5G network, but also includes different mobile scenarios of vehicular networks. We have performed extensive experiments in various scenarios, including high-density vehicles moving at low or high speed across dense cells, to evaluate the performance of the proposed architecture. The real-world experimental results demonstrate that SCVN achieves better performance in throughput, reliability, and handover latency compared to its counterparts.

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http://hdl.handle.net/10453/160331