4.6 Article

Feasibility Validation of a 5G-Enabled mmWave Vehicular Communication System on a Highway

Journal

IEEE ACCESS
Volume 9, Issue -, Pages 36535-36546

Publisher

IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/ACCESS.2021.3062907

Keywords

5G; high mobility; mmWave; testbed; vehicular communications

Funding

  1. Institute of Information and Communication Technology Planning and Evaluation (IITP) - Korea Government (MSIT) [2018-0-00792]

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This paper introduces an mmWave-based V2I communication system and evaluates its feasibility and effectiveness through a field trial on an actual highway. Key technologies are studied to overcome performance degradation of the mmWave system due to high mobility, providing solutions for better quality-of-service for in-vehicle UEs. The proposed system design and related technologies are validated through a real-world testbed, showing that the 5G NR-based mmWave system is feasible and effective for high data rate vehicular communication on a highway.
In this paper, we present an mmWave-based vehicle-to-infrastructure (V2I) communication system operating at a 22-23GHz frequency band, and evaluate its feasibility and effectiveness on an actual highway through a field trial. Based on a network layout that is well suited for the mmWave-based high mobility vehicular applications, we provide physical and higher layer design details, which are based on the 3GPP 5G New Radio (NR) standard. We then investigate key technologies to overcome the performance degradation of the mmWave-based system due to high mobility: a user equipment (UE)-oriented beam switching-based beamforming scheme, a fast and robust handover procedure with a two-step timing advance (TA) update, and mobile relaying for providing better quality-of-service (QoS) to in-vehicle UEs. The proposed system design and related key technologies are validated through a real-world testbed in an actual highway test site. Regarding this, we describe the specifics of testbed implementation and provide the experimental results obtained from the trial. The validation results show that the 5G NR-based mmWave system is feasible and effective for realizing high data rate vehicular communication on a highway.

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