Handover mechanisms in VMC systems: Evaluating the reliability of V2X as an alternative to fiber networks in handover areas

YouLin He; Xu Huang; ZhiHang Hu; XingYuan Tao; Che Su; YuChengQing Yu

doi:10.54254/2753-8818/28/20230470

Research Article

Open access

Published on 26 December 2023

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He,Y.;Huang,X.;Hu,Z.;Tao,X.;Su,C.;Yu,Y. (2023). Handover mechanisms in VMC systems: Evaluating the reliability of V2X as an alternative to fiber networks in handover areas. Theoretical and Natural Science,28,174-187.

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Handover mechanisms in VMC systems: Evaluating the reliability of V2X as an alternative to fiber networks in handover areas

YouLin He *^,1, Xu Huang ², ZhiHang Hu ³, XingYuan Tao ⁴, Che Su ⁵, YuChengQing Yu ⁶

¹ Beijing Haidian Foreign Language Shi Yan School
² University of New Wales
³ Zhejiang Gongshang University
⁴ Jinling Institute of Technology
⁵ Qingdao Academy
⁶ Hefei No.1 High School

* Author to whom correspondence should be addressed.

https://doi.org/10.54254/2753-8818/28/20230470

Abstract

Despite advances in communication ways in autonomous driving, including Vehicle-to-Vehicle Communication (V2V), Vehicle-to-Everything Communication (V2X) and Vehicular Micro-clouds (VMC). In this paper, the potential of V2X as a substitution for the artificial connections (mainly optical-fiber cables) between base stations and edge servers are discussed. The quality and latency of communication in Handshake--referring to the scenario of cars moving from one station’s operation scope to another one’s, is mainly concerned, within the frame of VMC. Additionally, the communication performance, referring to latency performance and data rate performance, for both pure V2X and a combination of LTE and V2X are simulated and analyzed using a Python simulator. Finally, the test results showed that the performance of pure V2X Communication is always superior compared with any combination in every categories as the density of cars gradually increase, which confirms that replace physical inter-station-cables as V2X communication is serious possibility.

Keywords

Communication Delay, Vehicular Micro-Clouds, Vehicle-To Everything Communication

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References

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The datasets used and/or analyzed during the current study will be available from the authors upon reasonable request.

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About volume

Volume title: Proceedings of the 2023 International Conference on Mathematical Physics and Computational Simulation

Conference website: https://www.confmpcs.org/

ISBN：978-1-83558-261-9(Print) / 978-1-83558-262-6(Online)

Conference date: 12 August 2023

Editor：Roman Bauer

Series: Theoretical and Natural Science

Volume number: Vol.28

ISSN：2753-8818(Print) / 2753-8826(Online)

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