Abstract
Among several palmprint feature extraction methods the HOG-based method is attractive and performs well against changes in illumination and shadowing of palmprint images. However, it still lacks the robustness to extract the palmprint features at different rotation angles. To solve this problem, this paper presents a hybrid feature extraction method, named HOG-SGF that combines the histogram of oriented gradients (HOG) with a steerable Gaussian filter (SGF) to develop an effective palmprint recognition approach. The approach starts by processing all palmprint images by David Zhang’s method to segment only the region of interests. Next, we extracted palmprint features based on the hybrid HOG-SGF feature extraction method. Then, an optimized auto-encoder (AE) was utilized to reduce the dimensionality of the extracted features. Finally, a fast and robust regularized extreme learning machine (RELM) was applied for the classification task. In the evaluation phase of the proposed approach, a number of experiments were conducted on three publicly available palmprint databases, namely MS-PolyU of multispectral palmprint images and CASIA and Tongji of contactless palmprint images. Experimentally, the results reveal that the proposed approach outperforms the existing state-of-the-art approaches even when a small number of training samples are used.
Highlights
Biometric technology is a valuable tool that is used for security purposes in many applications [1].In recent years, it has gained more attention worldwide
A novel palmprint recognition approach is proposed based on AE and regularized extreme learning machine (RELM) with a hybrid feature extraction method, named histogram of oriented gradients (HOG)-steerable Gaussian filter (SGF)
The hybrid HOG-SGF method was applied to extract the features of palmprint, while AE was used to solve the problem of high dimensionality associated with the HOG-SGF features
Summary
Biometric technology is a valuable tool that is used for security purposes in many applications [1]. In recent years, it has gained more attention worldwide. Palmprint images were only acquired in grayscale formats by using traditional natural light imaging systems. A new technique, called multispectral palmprint imaging, is used to increase the performance and accuracy of traditional natural light imaging systems. In comparison with the natural light image, each spectral band highlights different features, making it possible to obtain more information for improving a palmprint recognition system [6]
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