Abstract
When images are acquired for finger-vein recognition, images with nonuniformity of illumination are often acquired due to varying thickness of fingers or nonuniformity of illumination intensity elements. Accordingly, the recognition performance is significantly reduced as the features being recognized are deformed. To address this issue, previous studies have used image preprocessing methods, such as grayscale normalization or score-level fusion methods for multiple recognition models, which may improve performance in images with a low degree of nonuniformity of illumination. However, the performance cannot be improved drastically when certain parts of images are saturated due to a severe degree of nonuniformity of illumination. To overcome these drawbacks, this study newly proposes a generative adversarial network for the illumination normalization of finger-vein images (INF-GAN). In the INF-GAN, a one-channel image containing texture information is generated through a residual image generation block, and finger-vein texture information deformed by the severe nonuniformity of illumination is restored, thus improving the recognition performance. The proposed method using the INF-GAN exhibited a better performance compared with state-of-the-art methods when the experiment was conducted using two open databases, the Hong Kong Polytechnic University finger-image database version 1, and the Shandong University homologous multimodal traits finger-vein database.
Highlights
Biometrics are replacing traditional authentication methods in several fields requiring security
A method for restoring the severe nonuniformity of illumination based on a generative adversarial network (GAN) for the illumination normalization of finger-vein images (INF-GAN) and for improving the performance of finger-vein recognition is proposed in this paper
THUFVFDT1 includes the images of nonuniform illumination, the HKPU-DB and SDUMLAHMT-DB used in our experiments have been most widely adopted for experiments in previous research on finger-vein recognition [5,6,7,9,16,20]
Summary
Biometrics are replacing traditional authentication methods in several fields requiring security. Low-quality images due to blur or poor illumination, significantly affect the recognition performance; with the advancements in deep-learning technology, extensive research is being conducted on finger-vein recognition using a convolutional neural network (CNN) [5,6]. For solving the problem of low-quality image recognition due to blur or nonuniform illumination in finger-vein images, various methods in which a blur is removed by restoring images or a vein pattern is restored using a generative adversarial network (GAN) have been studied [7,8]. A method for restoring the severe nonuniformity of illumination based on a GAN for the illumination normalization of finger-vein images (INF-GAN) and for improving the performance of finger-vein recognition is proposed in this paper.
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