Enhancing vehicular communication using 5g-enabled smart collaborative networking
- 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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Enhancing_Vehicular_Communication_Using_5G-Enabled_Smart_Collaborative_Networking.pdf | 1.89 MB |
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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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