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Please use this identifier to cite or link to this item: http://hdl.handle.net/123456789/11376

Title: Statistical Assessment of PCA/SVD and FFT-PCA/SVD on Variable Facial Expressions
Authors: Asiedu, Louis
Adebanji, Atinuke
Oduro, Francis T.
Mettle, Felix O.
Keywords: Fast fourier transform
Multivariate
Principal component analysis
Singular value decomposition
Issue Date: 2016
Publisher: British Journal of Mathematics & Computer Science
Citation: British Journal of Mathematics & Computer Science 12(6): XX-XX, 2016, Article no.BJMCS.22141
Abstract: Face recognition is a dedicated process in the human brain. Automatic face recognition is rewarding since an efficient and resilient recognition system is useful in many application areas. Recent face recognition algorithms are still faced with the challenge of recognizing face image under variable environmental constraints. This paper presents a statistical evaluation of the performance of two face recognition algorithms namely, Principal Component Analysis with Singular Value Decomposition (PCA/SVD) and Principal Component Analysis with Singular Value Decomposition using Fast Fourier Transform for preprocessing (FFT-PCA/SVD) on variable facial expressions (Angry, Disgust, Fear, Happy, Sad and Surprise) along with their neutral expressions. We considered 42 individuals from Cohn Kanade Facial Expressions database, Japanese Female Facial Expressions (JAFFE) and a created Ghanaian Face database for recognition runs. Multivariate statistical methods were used in the assessment of the face recognition algorithms. GNU Octave was used to perform all numerical runs and statistical evaluation of the recognition algorithms. The results of the statistical evaluation show that, FFT-PCA/SVD is comparatively consistent (Low variation) and efficient (Higher recognition rate) than PCA/SVD algorithm in the recognition of variable facial expressions. The paper also proposes Fast Fourier Transform as a viable noise removal mechanism that should be adopted during image preprocessing.
Description: An article published by British Journal of Mathematics & Computer Science 12(6): XX-XX, 2016, Article no.BJMCS.22141
URI: http://hdl.handle.net/123456789/11376
Appears in Collections:College of Science

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