Abstract
Palm vein recognition is a high-security biometric. Outside the NIR capture box and contactless palm vein recognition are more popular but challenging. The users feel comfortable outside the NIR capture box but face more optical blurring brought by visible light. Contactless capture gestures solve the hygienic problem but face the image rotation, position translation, and scale transformation which makes classification difficult especially in large-scale databases. To address these problems, we develop a wavelet denoising ResNet, which consists of two models: the wavelet denoising (WD) model and the squeeze-and-excitation ResNet18 (SER) model. The WD model focuses on removing noise from skin scattering and optical blurring from palm vein images. The WD model enhances the low-frequency feature into a deep learning feature by residual learning technology. This strategy increases the weight of an effective handcrafted feature in the deep learning network. The SER model overcomes rotation, position translation, and scale transformation by selectively emphasizing classification features and weakening less useful features. To train and verify the network, an inside box palm vein image database and an outside box palm vein image database are set up. The Tongji contactless palm vein image database was also employed in the experiments. The validity and superiority of our network are verified in a series of experiments.
Highlights
Palm vein recognition identifies a person by the structure of vessels underneath palm skin [1]
Motivated by its practical value and the lack of good solutions, this paper develops a deep neural network: wavelet denoising ResNet
The model provides a solution to the high inter-class similarity and intra-class variation faced by contactless palm vein recognition in large databases
Summary
Palm vein recognition identifies a person by the structure of vessels underneath palm skin [1]. The main contributions can be included in four aspects: First, we propose an end-to-end deep network architecture for outside box and contactless palm vein recognition. This network architecture integrates feature extraction and classification into one deep learning network. The WD model fuses a sub-band wavelet inverse transform image into the deep learning network by residual learning technology Through this strategy, we improve the weight of meaningful features and denoise the palm vein image simultaneously. The model provides a solution to the high inter-class similarity and intra-class variation faced by contactless palm vein recognition in large databases.
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