Abstract
In order to solve the face recognition problem with different factors such as light, human expression and angle of shooting, a nonlinear principal component feature extraction neural network model is used in this paper. Researchers have proposed many algorithms for identifying applications, but the limitations of single algorithms cannot meet the requirements of practical application. By introducing the nonlinear principal component analysis (PCA), the proposed algorithm deletes a large amount of nonlinear data on the premise that a small amount of information can be guaranteed after linear dimensionality reduction. And the computational complexity of the neural network algorithm (BPNN) is large, so we use the nonlinear principal component analysis method to ensure the amount of information of the original data, and combined with the neural network algorithm to improve the efficiency of the algorithm. Empirical results show that PCA method can effectively reduce redundant data and ensure data integrity. Data after dimensionality reduction can improve the computational efficiency of neural network algorithm. The BPNN based PCA model can effectively solve the time consumption and recognition accuracy of the face recognition.
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References
Zhou, J., Lu, C.Y., Zhang, C.S.: A survey of automatic face recognition. Acta Electronica Sinica 28, 102–106 (2000)
Mukhedkar, M.M., Powalkar, S.B.: Fast face recognition based on Wavelet Transform on PCA. In: International Conference on Energy Systems and Applications, pp. 761–764. IEEE (2016)
Zhou, Z.H., Geng, X.: Projection functions for eye detection. Pattern Recogn. 37, 1049–1056 (2004)
Zhang, Y., Zhao, D., Sun, J., Zou, G., Li, W.: Adaptive convolutional neural network and its application in face recognition. Neural Process. Lett. 43(2), 389–399 (2016)
Borade, S.N., Deshmukh, R.R., Ramu, S.: Face recognition using fusion of PCA and LDA: Borda count approach. In: Control and Automation, pp. 1164–1167 (2016)
Chen, X., Zhang, C., Dong, F., Zhou, Z.: Parallelization of elastic bunch graph matching (EBGM) algorithm for fast face recognition. In: IEEE China Summit & International Conference on Signal and Information Processing, pp. 201–205. IEEE (2013)
Lecun, Y., Bottou, I., Benuio, Y., Haffner, P.: Gradient-based learning applied to document recognition. In: Proceedings of the IEEE, vol. 86, no. 11, pp. 2278–2324. IEEE (1998)
Mageshkumar, C., Thiyagarajan, R., Natarajan, S.P., Arulselvi, S., Sainarayanan, G.: Gabor features and LDA based face recognition with ANN classifier. In: International Conference on Emerging Trends in Electrical and Computer Technology, pp. 831–836. IEEE (2011)
Wallis, T.S.A., Taylor, C.P., Wallis, J., Jackson, M.L., Bex, P.J.: Characterization of field loss based on microperimetry is predictive of face recognition difficulties. Invest. Ophthalmol. Vis. Sci. 55(1), 142 (2014)
See, J., Eswaran, C., Fauzi, M.F.A.: Dual-feature bayesian MAP classification: exploiting temporal information for video-based face recognition. In: International Conference on Neural Information Processing, pp. 549–556. Springer-Verlag, Heidelberg (2012)
Acknowledgment
This work is supported by National Natural Science Foundation of China (Grant No. 61604019), Science and technology development project of Jinlin Province (20160520098JH, 20180201086SF), Education Department of Jilin Province (JJKH20181181KJ, JJKH20181165KJ), Jilin provincial development and Reform Commission (2017C031-2).
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Zhu, J. et al. (2020). Face Recognition Algorithm Based on Nonlinear Principal Component Feature Extraction Neural Network. In: Liu, Q., Mısır, M., Wang, X., Liu, W. (eds) The 8th International Conference on Computer Engineering and Networks (CENet2018). CENet2018 2018. Advances in Intelligent Systems and Computing, vol 905. Springer, Cham. https://doi.org/10.1007/978-3-030-14680-1_47
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DOI: https://doi.org/10.1007/978-3-030-14680-1_47
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