[1]刘瑞扬. 货车运行故障动态图像检测系统(TFDS)的原理与应用[J]. 中国铁路,2005(5):26-37.
LIU Ruiyang. Principle and Application of Trouble of Moving Freight Car Detection System (TFDS)[J]. Chinese Railways,2005(5):26-37.
[2]孙国栋, 杨林杰, 梅术正, 等. 一种基于几何特征的列车集尘器形状匹配算法[J]. 中国机械工程,2016,27(2):230-234.
SUN Guodong, YANG Linjie, MEI Shuzheng, et al. A Shape Matching Method for Train Collector Based on Geometrical Features[J]. China Mechanical Enginnering,2016,27(2):230-234.
[3]赵大兴, 王博, 周唯倜, 等. 基于有向线段重构轮廓与成对几何直方图的缓解阀盖图像匹配算法[J]. 中国机械工程,2017,28(6):721-727.
ZHAO Daxing, WANG Bo, ZHOU Weiti, et al. Image Matching Algorithm of Release Valve Bonnet Based on Contours Reconstructed by Oriented Line Segment and Pairwise Geometrical Histogram[J]. China Mechanical Engineering,2017,28(6):721-727.
[4]艾广, 张金敏, 王思明, 等. 基于Hough变换的挡键丢失故障识别方法[J]. 微电子学与计算机,2017,34(3):90-94.
AI Guang, ZHANG Jinmin, WANG Siming, et al. Fault Recognition Method for Bogie Block Key Losing Based on Hough Transform[J]. Microelectronics and Computer,2017,34(3):90- 94.
[5]孙国栋, 徐威, 梁永强, 等. 基于形状上下文的列车挡键丢失图像识别算法[J]. 铁道科学与工程学报,2014,11(6):127-131.
SUN Guodong, XU Wei, LIANG Yongqiang, et al. Image Recognition Algorithm for Side Frame Key of Train Based on Shape Context[J]. Journal of Railway Science and Engineering,2014,11(6):127-131.
[6]邹荣, 李健康, 徐家祥, 等. 复杂场景下铁路货车锁紧板偏转故障检测[J]. 铁道科学与工程学报,2015,12(4):917-922.
ZOU Rong, LI Jiankang, XU Jiaxiang, et al. Deflectionfault Detection for Locking Plate of Freight Trains under Complex Scene[J]. Journal of Railway Science and Engineering,2015,12(4):917-922.
[7]LI Nan, WEI Zhenzhong, CAO Zhipeng. Automatic Fault Recognition for Brake-shoe-key Losing of Freight Train[J]. Optik-International Journal for Light and Electron Optics,2015,126(23):4735-4742.
[8]周富强, 郭卉. 复杂背景下货车制动梁的快速分割方法[J]. 光学技术,2013,39(5):387-392.
ZHOU Fuqiang, GUO Hui. Fast Segmentation Method for Brake Beam of Freight Train under Complex Background[J]. Optical Technique,2013,39(5):387-392.
[9]GUO N, YAO J E. A Real-time Visual Inspection Method of Fastening Bolts in Freight Car Operation[J]. Applied Optics and Photonics China,2015,9675:96752G.
[10]LIU L, ZHOU F, HE Y. Automated Status Inspection of Fastening Bolts on Freight Trains Using a Machine Vision Approach[J]. Proceedings of the Institution of Mechanical Engineers Part F: Journal of Rail and Rapid Transit,2016,230(7):1159-1166.
[11]ZHENG C, WEI Z. Automatic Online Vision-based Inspection System of Coupler Yoke for Freight Trains[J]. Journal of Electronic Imaging,2016,25(6):061602.
[12]CAO Y, ZHANG B, LIU J, et al. Weighted Margin Sparse Embedded Classifier for Brake Cylinder Detection[J]. Neurocomputing,2013,120(10):560-568.
[13]ZHOU F, ZOU R, QIU Y, et al. Automated Visual Inspection of Angle Cocks during Train Operation[J].Proceedings of the Institution of Mechanical Engineers Part F: Journal of Rail and Rapid Transit,2013,228(7):794-806.
[14]LI C, WEI Z, XING J. Online Inspection System for the Automatic Detection of Bolt Defects on a Freight Train[J]. Proceedings of the Institution of Mechanical Engineers Part F: Journal of Rail and Rapid Transit,2016,230(4):271-288.
[15]LU S, LIU Z, NAN G, et al. Automated Visual Inspection of Brake Shoe Wear[J]. Applied Optics and Photonics China,2015:96752F.
[16]OJALA T, HARWOOD I. A Comparative Study of Texture Measures with Classification Based on Feature Distributions[J]. Pattern Recognition,1996,29(1):51-59.
[17]OJALA T, PIETIKINEN M. Multiresolution Gray Scale and Rotation Invariant Texture Classification with Local Binary Patterns[J]. IEEE Trans. Pattern Analysis and Machine Intelligence,2002,24(7):971-987.
[18]DALAL N, TRIGGS B. Histograms of Oriented Gradients for Human Detection[J]. IEEE Conference on Computer Vision and Pattern Recognition,2005,1(12):886-893.
[19]王庆伟, 应自炉. 一种基于 Haar-like T 特征的人脸检测算法[J]. 模式识别与人工智能,2015,28(1):35-41.
WANG Qingwei, YING Zilu. A Face Detection Algorithm Based on Haar-like T Features[J]. Pattern Recognition and Artificial Intelligence,2015,28(1):35-41.
[20]段晓东, 王存睿, 李志洁, 等. 基于Haarlike的人脸民族特征分析[J]. 微电子学与计算机,2011,28(7):17-20.
DUAN Xiaodong, WANG Cunrui, LI Zhijie, et al. The Ethnic Facial Research Based on Haarlike Features[J]. Microelectronics and Computer,2011,28(7):17-20.
[21]FREUND Y. Experiments with a New Boosting Algorithm[J].Proceedings of Thirteenth International Conference on Machine Learning,1996,13:148-156.
[22]张杨. 基于改进马尔科夫随机场与精确高度函数的列车故障图像层次特征匹配[D]. 武汉: 湖北工业大学,2017.
ZHANG Yang. Hierarchical Feature Matching of the Fault Image Based Improved Markov Random Field and Exact Height Function in TFDS[D].Wuhan: Hubei University of Technology,2017.