Transforming Vehicular Networks: How 6G can Revolutionize Intelligent Transportation?

Authors

DOI:

https://doi.org/10.54327/set2024/v4.i1.127

Keywords:

6G technology, Intelligent transportation, Vehicular networks, Ultra-high data rates

Abstract

Vehicular Ad-hoc Networks (VANETs) have enabled intelligent transportation systems by facilitating communication between vehicles and roadside infrastructure. However, the current 5G and 4G networks that support VANETs have certain limitations that hinder the full potential of VANET applications. These limitations include constraints in bandwidth, latency, connectivity, and security. The upcoming 6G network is expected to revolutionize VANETs by introducing several advancements. 6G will provide ultra-fast communication with significantly reduced latency, enabling real-time and high-bandwidth data exchange between vehicles. The network will also offer highly reliable and secure connectivity, ensuring the integrity and privacy of VANET communications. Precise localization and sensing capabilities will be enhanced in 6G-based VANETs, enabling accurate positioning of vehicles and improved situational awareness. This will facilitate collision avoidance, traffic management, and cooperative driving applications. Moreover, integrating edge computing in 6G networks will bring computing resources closer to the edge, lowering response times and facilitating faster decision-making in time-critical scenarios. This paper explores the key features and capabilities of 6G technology and how it can revolutionize intelligent transportation, addressing challenges and opportunities for adopting 6G in VANETs.

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Published

02.04.2024

Data Availability Statement

No additional data or materials were utilized for the research described in the article.

How to Cite

[1]
A. Aghaei Anvigh, Y. Khavan, and B. Pourghebleh, “Transforming Vehicular Networks: How 6G can Revolutionize Intelligent Transportation?”, Sci. Eng. Technol., vol. 4, no. 1, pp. 80–93, Apr. 2024, doi: 10.54327/set2024/v4.i1.127.

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