Real-time daytime road marker recognition using features vectors and neural network

2015 IEEE Conference on Sustainable Utilization And Development In Engineering and Technology (CSUDET) Pub Date : 2015-10-01 DOI:10.1109/CSUDET.2015.7446223

Zamani Md Sani, Loi Wei Sen, Hadhrami Abd Ghani, R. Besar

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引用次数: 3

Abstract

Road markers provide vital information to ensure traffic safety. Different sets of markers are normally used between the highways and the normal road. At the normal road for example, the double lane markers are used to indicate the hazardous area, where overtaking is prohibited while broken marker lane indicate otherwise. To avoid traffic accidents and provide safety, these markers should be accurately detected and classified, which is best solved via vision detection approach. Marker type classification is however affected by the changing sun illumination throughout the day. In this paper, real-time recognition of these markers is developed using the artificial neural network (ANN) to alert the users while driving. The accuracy of the scheme is observed when different input features (geometrical and texture) and image pixels are fed for recognizing broken and double lane markers. A very high accuracy result with low error rate is obtained at 98.83% (10-fold cross validation) accuracy detection using additional features, compared with ~95% by using only the image pixels as the input vector and average processing time is at ~30ms per frame.

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基于特征向量和神经网络的日间道路标志实时识别

道路标志是确保交通安全的重要信息。高速公路和普通道路之间通常使用不同的标志。例如，在正常道路上，双车道标志用于指示危险区域，禁止超车，而破标车道则表示不允许超车。为了避免交通事故和提供安全，需要对这些标记物进行准确的检测和分类，这最好通过视觉检测方法来解决。然而，标记类型的分类受全天太阳光照变化的影响。本文利用人工神经网络(ANN)对这些标志进行实时识别，并在驾驶过程中提醒用户。当输入不同的特征(几何和纹理)和图像像素时，观察该方案的准确性，用于识别破碎和双车道标记。使用附加特征的98.83%(10倍交叉验证)精度检测获得了非常高的准确度和低错误率，而仅使用图像像素作为输入向量的准确率为95%，平均处理时间为每帧约30ms。

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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2015 IEEE Conference on Sustainable Utilization And Development In Engineering and Technology (CSUDET)

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