Title :
Vehicle representation and classification of surveillance video based on sparse learning
Author :
Chen Xiangjun ; Ruan Yaduan ; Zhang Peng ; Chen Qimei ; Zhang Xinggan
Author_Institution :
Sch. of Electron. Sci. & Eng., Nanjing Univ., Nanjing, China
Abstract :
We cast vehicle recognition as problem of feature representation and classification, and introduce a sparse learning based framework for vehicle recognition and classification in this paper. After objects captured with a GMM background subtraction program, images are labeled with vehicle type for dictionary learning and decompose the images with sparse coding (SC), a linear SVM trained with the SC feature for vehicle classification. A simple but efficient active learning strategy is adopted by adding the false positive samples into previous training set for dictionary and SVM model retraining. Compared with traditional feature representation and classification realized with SVM, SC method achieves dramatically improvement on classification accuracy and exhibits strong robustness. The work is also validated on real-world surveillance video.
Keywords :
Gaussian processes; image classification; image coding; image representation; intelligent transportation systems; learning (artificial intelligence); mixture models; support vector machines; traffic engineering computing; video surveillance; GMM background subtraction program; Gaussian mixture model; SC method; SVM model retraining; active learning strategy; dictionary learning; false positive samples; linear SVM; sparse coding; sparse learning based framework; vehicle classification; vehicle recognition; vehicle representation; video surveillance; Accuracy; Classification algorithms; Dictionaries; Support vector machines; Surveillance; Training; Vehicles; feature representation; robustness and generalization; sparse learning; vehicle classification;
Journal_Title :
Communications, China
DOI :
10.1109/CC.2014.7022537
