| Authors |
T. Yamazato, A. Ohmura, H. Okada, T. Fujii, T. Yendo; S. Arai, K. Kamakura |
| Title |
Range estimation scheme for integrated I2V-VLC using a high-speed image sensor |
| Authority |
IEEE International Conference on Communications Workshops (ICC), pp.326-330 |
| Summary |
High-speed image sensors, designed for machine vision and control, provide the "eyes" for autonomous and connected vehicle.
A noteworthy feature of high-speed image sensors is their ability to be used as a reception device for visible light communication (VLC) signals. Due to the massive number of pixels available and the ability to spatially separate sources, a signal-receiving pixel in the image sensor plane represents the actual position of the transmitter. The VLC signal can be represented not only by a VLC time domain signal but also by the position of the transmitter. In this paper, we propose a robust range estimation scheme that integrates with a VLC function for infrastructure-to-vehicle visible light communication (I2V-VLC). The scheme is composed of an LED array transmitter and a high-speed image sensor receiver. It measures a range by taking phase-only correlation (POC) and avoids vehicle vibration from road irregularity. Field trials confirm an accuracy range of 0.3 m, even on rough road conditions, with the measurement time of 2 ms, which is much faster than that of light detection and ranging (LIDAR). |
| 年月 |
2016年5月 |
| DOI/Handle |
DOI:10.1109/ICCW.2016.7503808
|
| 開催場所 |
Kuala Lumpur, Malaysia |
| 研究テーマ |
可視光通信/光無線通信
高度交通システム(ITS)
|
| 言語 |
英語 |
| 原稿/プレゼン資料 |
 /  (ローカル限定) |
