High-speed distance measurement between moving vehicles with NIR-LED markers

2008 11th International Conference on Computer and Information Technology Pub Date : 2008-12-01 DOI:10.1109/ICCITECHN.2008.4803048

M. Fukuzawa, H. Hama, N. Nakamori, M. Yamada

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引用次数: 4

Abstract

An image-based technique with high measurement rate has been proposed to measure the distance between two moving vehicles. By combining several near-infrared (NIR) LED markers mounted on the forward vehicle with an NIR-filtered CMOS camera mounted on the backward vehicle, one can clearly recognize the marker shape and positions without any adjusting the focus lens of camera, and hence he can extremely reduce the time of digital preprocessing such as noise elimination and marker segmentation. The distance may be easily calculated from the geometrical transformation of the marker positions obtained in sub-pixel resolution from the gravity center of the pixel value. The image-based technique proposed here is actually examined in the vehicles moving on linear and curved tracks. It is experimentally confirmed that the measurement rate attains to 1000 frames/sec in the windowed image of 752 times 34 pixels, with a small processor with the clock of 600 MHz, including the capture time of the image, the calculation time of the gravity center, and the geometrical transformation time. The measurement error is less than 1 % for the distance range of 0.5 to 3 m.

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用NIR-LED标记器测量移动车辆之间的高速距离

提出了一种基于图像的高测量率的两车距离测量方法。将前方车辆上安装的多个近红外LED标记与后车安装的近红外滤波CMOS摄像头相结合，无需调整摄像头的对焦镜头，即可清晰识别标记的形状和位置，从而极大地减少了消噪、标记分割等数字预处理的时间。从像素值的重心得到的亚像素分辨率的标记位置的几何变换，可以很容易地计算出距离。本文提出的基于图像的技术在直线和曲线轨道上的车辆中进行了实际测试。实验证实，在一个时钟为600 MHz的小型处理器上，在752 × 34像素的加窗图像上，测量速率达到1000帧/秒，包括图像的捕获时间、重心的计算时间和几何变换时间。在0.5 ~ 3m的距离范围内，测量误差小于1%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 11th International Conference on Computer and Information Technology

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