基于视觉码本特征增强的城市交通密集立体障碍物分类

2013 IEEE 9th International Conference on Intelligent Computer Communication and Processing (ICCP) Pub Date : 2013-10-24 DOI:10.1109/ICCP.2013.6646092

Ion Giosan, A. Costea, S. Nedevschi

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引用次数: 1

摘要

每个驾驶辅助系统都应该有一个障碍分类模块。它的主要作用是在一组预定义的类别中准确地对障碍物进行分类。本文提出了一种基于实时密集立体障碍物分类系统，该系统将HOG、LBP和文本描述符等视觉码本特征集成在一个功能强大的分类器中。该系统将障碍物分为四大类:汽车、行人、电线杆/树木和其他障碍物。该系统利用一对灰度立体摄像机获取图像场景。首先采用二维强度和三维深度信息相结合的方法对障碍物进行精确分割。然后，从大量障碍物中提取具有手动标记类的视觉码本特征，并用于训练鲁棒增强分类器。与基于相关特征集训练的随机森林分类器的方法的分类结果比较显示出相当大的改进，特别是对于其他障碍的分类。

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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Urban traffic dense-stereo obstacle classification using boosting over visual codebook features

Every driving assistance system should have an obstacle classification module. Its main role is to accurately classify obstacles within a set of predefined classes. This paper presents a real-time dense-stereo based obstacle classification system that integrates visual codebook features like HOG, LBP and texton descriptor types in a powerful classifier. The system classifies the obstacles in four main classes: cars, pedestrians, poles/trees and other obstacles. The system acquires the image scenes using a pair of gray level stereo video-cameras. A combined approach using both 2D intensity and 3D depth information is firstly used for accurate obstacle segmentation. Then, the visual codebook features are extracted for a large set of obstacles with manually labeled classes and used for training a robust boosting classifier. The comparative classification results with an approach based on a random forest classifier trained on a relevant feature set show a considerable improvement, especially for the class of other obstacles.

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来源期刊

2013 IEEE 9th International Conference on Intelligent Computer Communication and Processing (ICCP)

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