Action unit classification for facial expression recognition using active learning and SVM

被引:0
作者
Li Yao
Yan Wan
Hongjie Ni
Bugao Xu
机构
[1] Donghua University,School of Computer Science and Technology
[2] University of North Texas,Department of Computer Science and Engineering
来源
Multimedia Tools and Applications | 2021年 / 80卷
关键词
Action unit; Facial expression recognition; Active learning; Support vector machine;
D O I
暂无
中图分类号
学科分类号
摘要
Automatic facial expression analysis remains challenging due to its low recognition accuracy and poor robustness. In this study, we utilized active learning and support vector machine (SVM) algorithms to classify facial action units (AU) for human facial expression recognition. Active learning was used to detect the targeted facial expression AUs, while an SVM was utilized to classify different AUs and ultimately map them to their corresponding facial expressions. Active learning reduces the number of non-support vectors in the training sample set and shortens the labeling and training times without affecting the performance of the classifier, thereby reducing the cost of labeling samples and improving the training speed. Experimental results show that the proposed algorithm can effectively suppress correlated noise and achieve higher recognition rates than principal component analysis and a human observer on seven different facial expressions.
引用
收藏
页码:24287 / 24301
页数:14
相关论文
共 41 条
[1]  
Chen L(2014)A fair comparison should be based on the same protocol--comments on "trainable convolution filters and their application to face recognition"[J] IEEE Trans Pattern Anal Mach Intell 36 622-623
[2]  
Cheng ZY(2016)On effective location-aware music recommendation[J] ACM Trans Inf Syst 34 1-13
[3]  
Shen JL(2015)Deep learning based FACS unit occurrence and intensity estimation[C]//2015 11th IEEE international conference and workshops on automatic face and gesture recognition(FG) IEEE 6 1-5
[4]  
Gudi A(2016)A Main directional mean optical flow feature for spontaneous micro-expression recognition [J] IEEE Trans Affect Comput 7 299-310
[5]  
Tasli HE(2019)Facial landmark machines: a backbone-branches architecture with progressive representation learning [J] IEEE Transactions on Multimedia 21 2248-2262
[6]  
Den Uyl TM(2010)The extended Cohn-Kanade dataset (CK+): a complete dataset for action unit and emotion-specified expression Computer Vision and Pattern Recognition Workshops IEEE 36 94-101
[7]  
Liu Y(2013)Facial micro-expression detection in hi-speed video based on facial action coding system (FACS)[J] IEICE Trans Inf Syst 96 81-92
[8]  
Zhang J(2013)Facial micro-expression detection in hi-speed video based on facial action coding system (FACS) [J] IEICE Transactions on Information & Systems 96 81-92
[9]  
Yan W(2009)Facial expression recognition based on local binary patterns: a comprehensive study Image Vis Comput 27 803-816
[10]  
Liu L(2014)Face recognition and micro-expression recognition based on discriminant tensor subspace analysis plus extreme learning machine Neural Process Lett 39 25-43
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