Raissouni Fatima Zahra, De-La-Llana-Calvo Álvaro, Lázaro-Galilea José Luis, Gardel-Vicente Alfredo, Cherkaoui Abdeljabbar, Bravo-Muñoz Ignacio
Department of Electronics, University of Alcalá, Alcalá de Henares, 28801 Madrid, Spain.
Laboratory of Innovative Technologies, National School of Applied Sciences, Abdelmalek Essaâdi University, Tangier 90060, Morocco.
Sensors (Basel). 2024 Apr 5;24(7):2320. doi: 10.3390/s24072320.
In this paper, we explore the use of visible light positioning (VLP) technology in vehicles in intelligent transportation systems (ITS), highlighting its potential for maintaining effective line of sight (LOS) and providing high-accuracy positioning between vehicles. The proposed system (V2V-VLP) is based on a position-sensitive detector (PSD) and exploiting car taillights to determine the position and inter-vehicular distance by angle of arrival (AoA) measurements. The integration of the PSD sensor in vehicles promises exceptional positioning accuracy, opening new prospects for navigation and driving safety. The results revealed that the proposed system enables precise measurement of position and distance between vehicles, including lateral distance. We evaluated the impact of different focal lengths on the system performance, achieving cm-level accuracy for distances up to 35 m, with an optimum focal length of 25 mm, and under low signal-to-noise conditions, which meets the standards required for safe and reliable V2V applications. Several experimental tests were carried out to validate the results of the simulations.
在本文中,我们探讨了可见光定位(VLP)技术在智能交通系统(ITS)车辆中的应用,强调了其在保持有效视线(LOS)以及提供车辆间高精度定位方面的潜力。所提出的系统(车对车可见光定位,V2V-VLP)基于位置敏感探测器(PSD),并利用汽车尾灯通过到达角(AoA)测量来确定车辆的位置和车间距离。将PSD传感器集成到车辆中有望实现卓越的定位精度,为导航和驾驶安全开辟新前景。结果表明,所提出的系统能够精确测量车辆之间的位置和距离,包括横向距离。我们评估了不同焦距对系统性能的影响,在高达35米的距离上实现了厘米级精度,最佳焦距为25毫米,且在低信噪比条件下,这符合安全可靠的车对车应用所需的标准。进行了多项实验测试以验证模拟结果。