Hidden Vehicle Sensing via Asynchronous V2V Transmission: A Multi-Path-Geometry Approach

Kaifeng Han; Seung-Woo Ko; Hyukjin Chae; Byoung-Hoon Kim; Kaibin Huang

doi:10.1109/ACCESS.2019.2954858

IEEE Access (Jan 2019)

Hidden Vehicle Sensing via Asynchronous V2V Transmission: A Multi-Path-Geometry Approach

Kaifeng Han,
Seung-Woo Ko,
Hyukjin Chae,
Byoung-Hoon Kim,
Kaibin Huang

Affiliations

Kaifeng Han: ORCiD; Institute of Policy and Economics Research, China Academy of Information and Communications Technology, Beijing, China
Seung-Woo Ko: ORCiD; Division of Electronics and Electrical Information Engineering, Korea Maritime and Ocean University, Busan, South Korea
Hyukjin Chae: ORCiD; Independent Researcher, USA
Byoung-Hoon Kim: ORCiD; LG Electronics, Seoul, South Korea
Kaibin Huang: ORCiD; Department of Electrical and Electronic Engineering, The University of Hong Kong, Hong Kong

DOI: https://doi.org/10.1109/ACCESS.2019.2954858
Journal volume & issue: Vol. 7
pp. 169399 – 169416

Abstract

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Accurate vehicular sensing is a basic and important operation in autonomous driving. Unfortunately, the existing techniques have their own limitations. For instance, the communication-based approach (e.g., transmission of GPS information) has high latency and low reliability while the reflection-based approach (e.g., RADAR) is incapable of detecting hidden vehicles (HVs) without line-of-sight. This is arguably the reason behind some recent fatal accidents involving autonomous vehicles. To address this issue, this paper presents a novel HV-sensing technology that exploits multi-path transmission from a HV to a sensing vehicle (SV). The powerful technology enables the SV to detect multiple HV-state parameters including position, orientation of driving direction, and size. Its implementation does not even require synchronization like conventional mobile positioning techniques. Our design approach leverages estimated information on multi-path [namely their angles-of-arrival (AoA), angles-of-departure (AoD), and time-of-arrival (ToA)] and their geometric relations. As a result, a complex system of equations or optimization problems, where the desired HV-state parameters are variables, can be formulated for different channel-noise conditions. The development of intelligent solution methods ranging from least-square estimator to disk/box minimization yields a set of practical HV-sensing techniques. We study their feasibility conditions in terms of the required number of paths. Furthermore, practical solutions, including sequential path combining and random directional beamforming, are proposed to enable HV-sensing given insufficient paths. Last, realistic simulation of driving in both highway and rural scenarios demonstrates the effectiveness of the proposed techniques. In summary, the proposed technique will enhance the capabilities of existing vehicular sensing technologies (e.g., RADAR and LIDAR) by enabling HV-sensing.

Published in IEEE Access

ISSN: 2169-3536 (Online)
Publisher: IEEE
Country of publisher: United States
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering
Website: https://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=6287639

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