| Summary: | Currently, the used of deep learning method has attracted widespread attention in machine learning, especially in Biometric. Many deep learning methods have been proposed like convolutional neural network (CNN), AlexNet and principal component analysis network (PCANet). Among the methods employed, PCANet is believed to be the most effective method because of its promising performance in biometric. However, the current filter generation approach in PCANet does not consider the characteristics of the image, such as vein lines for finger vein recognition. To address this limitation, we proposed a new filter generation method that can consider the essential features of the image, such as the use of vein lines for finger vein recognition. The filter of the proposed method was generated by finding the correlation between two view images, which was original grayscale image and vein line image using canonical correlation analysis (CCA) method. Then, we evaluated this proposed method with the three public finger vein image database, FV-USM, SDUMLA-HMT and THU-FVT2. The results showed that the proposed method produced higher accuracy compared to other state-of-the-art features of finger vein recognition biometric method.
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