A visually salient approach to recognize vehicles based on hierarchical architecture

2014 IEEE International Conference on Multimedia and Expo Workshops (ICMEW) Pub Date : 2014-07-14 DOI:10.1109/ICMEW.2014.6890582

Qiaochu Liu, Ruoying Jia, Zheng Shou, Xiaoran Zhan, Birong Zhang

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Abstract

In order to recognize multi-class vehicles, traditional methods are typically based on license plates and frontal images of vehicles. These methods rely heavily on specific datasets and thus are not applicable in real-world tasks. In this paper, we propose a novel method based on a hierarchical model, HMAX, which simulates visual architecture of primates for object recognition. It can extract features of shift-invariance and scale-invariance by Gabor filtering, template matching, and max pooling. In particular, we adopt a model of saliency-based visual attention to detect salient patches for template matching, also we drop inefficient features via an all-pairs linear SVM. During experiments, high accuracy and great efficiency are achieved on a dataset which has 31 types and over 1400 vehicle images with varying scales, orientations, and colors. With comparisons with Original-HMAX, Salient-HMAX, and Sifted-HMAX model, our method achieves classifying accuracy at 92% and time for each image at around 1.5s, while reduces 73% of the time consumed by original HMAX model.

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一种基于层次结构的车辆识别方法

为了识别多类别车辆，传统的方法通常是基于车牌和车辆正面图像。这些方法严重依赖于特定的数据集，因此不适用于现实世界的任务。在本文中，我们提出了一种基于层次模型HMAX的新方法，该方法模拟了灵长类动物的视觉结构进行物体识别。该算法通过Gabor滤波、模板匹配和最大池化来提取平移不变性和尺度不变性特征。特别地，我们采用了基于显著性的视觉注意模型来检测模板匹配的显著补丁，并通过全对线性支持向量机去除低效特征。在实验过程中，对31种类型、1400多幅不同尺度、方向和颜色的车辆图像进行了实验，获得了较高的精度和效率。通过与original -HMAX、salit -HMAX和sift -HMAX模型的比较，我们的方法的分类准确率达到92%，每张图像的分类时间在1.5s左右，而原始HMAX模型的分类时间减少了73%。

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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2014 IEEE International Conference on Multimedia and Expo Workshops (ICMEW)

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