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Pattern Analysis and Applications
Erschienen in: Pattern Analysis and Applications 3/2021

17.03.2021 | Theoretical advances

HDG and HDGG: an extensible feature extraction descriptor for effective face and facial expressions recognition

verfasst von: Farid Ayeche, Adel Alti

Erschienen in: Pattern Analysis and Applications | Ausgabe 3/2021

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Abstract

The potential of facial and facial expression recognitions has gained increased interest in social interactions and biometric identification. Earlier facial identification methods suffer from drawbacks due to the lower identification accuracy under difficult lighting conditions. This paper presents two novel new descriptors called Histogram of Directional Gradient (HDG) and Histogram of Directional Gradient Generalized (HDGG) to extracting discriminant facial expression features for better classification accuracy with good efficiency than existing classifiers. The proposed descriptors are based on the directional local gradients combined with SVM (Support Vector Machine) linear classification. To build an efficient face and facial expression recognition, features with reduced dimension are used to boost the performance of the classification. Experiments are conducted on two public-domain datasets: JAFFE for facial expression recognition and YALE for face recognition. The experiment results show the best overall accuracy of 92.12% compared to other existing works. It demonstrates a fast execution time for face recognition ranging from 0.4 to 0.7 s in all evaluated databases.
Vorheriger Artikel Text classification based on the word subspace representation
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Literatur
1.
Cruz AC, Bhanu B, Thakoor NS (2014) Vision and attention theory-based sampling for continuous facial emotion recognition. IEEE Trans Affect Comput 5(4):418–431CrossRef
2.
Zhang X, Guan Y, Wang S, Liang J, Quan T (2006) Face recognition in color images using principal component analysis and fuzzy support vector machines. In: First IEEE international symposium on systems and control in aerospace and astronautics, pp 4
3.
Valstar MF, Pantic M (2011) Fully automatic recognition of the temporal phases of facial actions. IEEE Trans Syst Man Cybern Part B (Cybern) 42(1):28–43CrossRef
4.
Ahonen T, Hadid A, Pietikainen M (2006) Face description with local binary patterns: application to face recognition. IEEE Trans Pattern Anal Mach Intell 28(12):2037–2041CrossRef
5.
Zhang X, Shan S, Gao W, Chen X, Zhang H (2005) Local Gabor binary pattern histogram sequence (lgbphs): a novel non-statistical model for face representation and recognition, Computer Vision. ICCV 2005. In: Tenth IEEE international conference on, IEEE, 2005, pp 786–791
6.
Chen J, Shan S, He C, Zhao G, Pietikainen M, Chen X, Gao W (2009) WLD: a robust local image descriptor. IEEE Trans Pattern Anal Mach Intell 32(9):1705–1720CrossRef
7.
Islam MS (2014) Local gradient pattern—a novel feature representation for facial expression recognition. J AI Data Mining 2:33–38
8.
9.
Rivera AR, Castillo JR, Chae OO (2012) Local directional number pattern for face analysis: face and expression recognition. IEEE Trans Image Process 22(5):1740–1752MathSciNetCrossRef
10.
Ojansivu V, Heikkilä J (2008) Blur insensitive texture classification using local phase quantization. In: International conference on image and signal processing, Springer, pp 236–243
11.
Bashar F, Khan A, Ahmed F, Kabir MH (2014) Robust facial expression recognition based on median ternary pattern (MTP). In: International conference on electrical information and communication technology (EICT). IEEE, pp 1–5
12.
Tong Y, Chen R, Cheng Y (2014) Facial expression recognition algorithm using LGC based on horizontal and diagonal prior principle. Optik 125(16):4186–4189CrossRef
13.
Dalal N, Triggs B (2005) Histograms of oriented gradients for human detection. 2005 IEEE Comput Soc Conf Comput Vision Pattern Recognit (CVPR’05) 1:886–893CrossRef
14.
Farid A, Adel A (2020) Improved face and facial expression recognition based on a novel local gradient neighborhood. J Digital Inf Manag 18:33–34
15.
Siddiqi MH, Lee S, Lee YK, Khan AM, Truc PTH (2013) Hierarchical recognition scheme for human facial expression recognition systems. Sensors 13(12):16682–16713CrossRef
16.
Jolliffe IT, Cadima J (2016) Principal component analysis: a review and recent developments. Philos Trans R Soc A Math Phys Eng Sci 374(2065):20150202MathSciNetCrossRef
17.
Fathima AA, Ajitha S, Vaidehi V, Hemalatha M, Karthigaiveni R, Kumar R (2015) Hybrid approach for face recognition combining Gabor Wavelet and Linear Discriminant Analysis. In: 2015 IEEE international conference on computer graphics, vision and information security (CGVIS), pp 220–225
18.
19.
Cho H, Roberts R, Jung B, Choi O, Moon S (2014) An efficient hybrid face recognition algorithm using PCA and Gabor wavelets. Int J Adv Rob Syst 11(4):59CrossRef
20.
Kar A, Bhattacharjee D, Nasipuri M, Basu DK, Kundu M (2013) High-performance human face recognition using Gabor based pseudo hidden Markov model. Int J Appl Evolut Comput (IJAEC) 4(1):81–102CrossRef
21.
Wang H, Wang Y, Zhou Z, Ji X, Gong D, Zhou J, Liu W (2018) Cosface: large margin cosine loss for deep face recognition. In: Proceedings of the IEEE conference on computer vision and pattern recognition, pp 5265–5274
22.
Kasthuri A, Suruliandi A, Raja SP (2019) Gabor-oriented local order feature-based deep learning for face annotation. Int J Wavelets Multiresolution Inf Process 17(05):1950032MathSciNetCrossRef
23.
Zhu M, Li J, Wang N, Gao X (2019) A deep collaborative framework for face photo–sketch synthesis. IEEE Trans Neural Netw Learn Syst 30(10):3096–3108CrossRef
24.
Anburajan K, Andavar S, Elango P (2020) An empirical evaluation of name semantic network for face annotation. Recent Adv Comput Sci Commun (Formerly Recent Patents Comput Sci) 13(4):557–571CrossRef
25.
Jabid T, Kabir MH, Chae O (2010) Local directional pattern (LDP) for face recognition. In: 2010 digest of technical papers international conference on consumer electronics (ICCE). IEEE, pp 329–330
26.
27.
Zhang H, Wang S, Xu X, Chow TW, Wu QJ (2018) Tree2Vector: learning a vectorial representation for tree-structured data. IEEE Trans Neural Netw Learn Syst 99:1–15MathSciNet
28.
29.
30.
31.
Huynh-Thu Q, Ghanbari M (2008) Scope of validity of PSNR in image/video quality assessment. Electron Lett 44(13):800–801CrossRef
32.
Hu J, Lu J, Tan YP (2014) Discriminative deep metric learning for face verification in the wild. In: Proceedings of the IEEE conference on computer vision and pattern recognition, pp 1875–1882
33.
Eskicioglu AM, Fisher PS (1995) Image quality measures and their performance. IEEE Trans Commun 43(12):2959–2965CrossRef
34.
Metadaten
Titel
HDG and HDGG: an extensible feature extraction descriptor for effective face and facial expressions recognition
verfasst von
Farid Ayeche
Adel Alti
Publikationsdatum
17.03.2021
Verlag
Springer London
Erschienen in
Pattern Analysis and Applications / Ausgabe 3/2021
Print ISSN: 1433-7541
Elektronische ISSN: 1433-755X
DOI
https://doi.org/10.1007/s10044-021-00972-2

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