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子块鉴别分析的路面裂缝检测

钱彬1, 唐振民1, 徐威1, 陶玉婷2(1.南京理工大学计算机科学与工程学院, 南京 210094;2.中国计量学院计算机科学与技术系, 杭州 310018)

摘 要
目的 路面图像受光照、行道线和油渍等干扰使得准确的提取并统计路面裂缝信息难以实现。鉴于此,提出一种基于子块鉴别分析的路面裂缝检测算法。方法 首先提出一种基于亮度补偿的灰度校正算法用以削弱光照等影响并结合稀疏自编码模型提取子块特征;然后在鉴别分析基础上提出两类迭代鉴别分析降维算法,通过循环更新子类类间距离,使得裂缝子块投影和聚类交替执行直至满足收敛条件从而获得更具有鉴别能力的低维子空间;最后对投影后的子块采用最近邻分类器进行快速分类。结果 迭代过程中裂缝子块聚类结果逐渐趋向于低维子空间下的真实样本分布形态、子空间鉴别能力大幅提升。公开数据集上该算法取得95.5%的识别率,在实际采集的高速公路数据库上也取得90.9%的识别率,验证了本文算法的有效性。结论 提出了一种高效的基于鉴别分析的子块特征识别算法用于路面裂缝检测,在深度挖掘裂缝子块特征的基础上,迭代寻找最优低维鉴别子空间实现特征降维,在包含多种噪声的路面环境中具有良好的鲁棒性和适应性。多组对比实验结果表明其有效性优于其他裂缝子块特征识别方法。
关键词
Pavement crack detection algorithm based on sub-patch discriminant analysis

Qian Bin1, Tang Zhenmin1, Xu Wei1, Tao Yuting2(1.School of Computer Science and Engineering, Nanjing University of Science and Technology, Nanjing 210094, China;2.Computer Science and Technology Department, China Jiliang University, Hangzhou 310018, China)

Abstract
Objective How to extract and collect crack information efficiently and effectively still remains a challenging task due to illumination, lane and stains over the pavement images. In this paper, based on the sub-patch discriminant analysis, we propose a novel pavement crack detection method to address the foregoing problem. Method First, an intensity compensation based grayscale correction algorithm is presented to weaken uneven illumination, then the sparse autoencoder model is applied to extract sub-patch features. Second, in order to extract more discriminative features, a new two class iterative discriminant analysis is further proposed, where the projection and clustering processing steps are alternatively performed to update the inter-distance of different sub-classes of all crack patches until convergence. Finally, the nearest neighbor classifier is adopted in the discriminative subspace for classification tasks. Result As the distribution of samples in the transformed subspace approaches to the true one via the iterative process, discrimination of features can be enhanced significantly. A series of experiments show that the proposed method achieves high recognition rates, i.e., up to 95.5% on the benchmark dataset, 90.9% on a practical highway dataset. Conclusion A sub-patch discriminant analysis based method is developed for effective crack detection. Our method aims to extract highly discriminative features for sub-patches of road images. Three main steps, i.e., grayscale correction, sparse autoencoding, iterative discriminant feature extraction are involved, making our method highly robust and adaptive to the road images with several kinds of heavy noises. The final classification is performed in the obtained low dimensional subspace. Extensive experimental results on two datasets demonstrate that our proposed method generally outperforms other existing related algorithms.
Keywords

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