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Chahir, Youssef
- Finger-Knuckle-Print Recognition System Based on Features-level Fusion of Real and Imaginary Images
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Authors
Affiliations
1 Department of Computer Science, Mohamed El Bachir El Ibrahimi University of Bordj Bou, Arreridj, DZ
2 Department of Computer Science, Ferhat Abbas University, DZ
3 Department of New Technologies of Information and Communication, Ouargla University, DZ
4 Department of Computer Science, University of Caen Lower, FR
1 Department of Computer Science, Mohamed El Bachir El Ibrahimi University of Bordj Bou, Arreridj, DZ
2 Department of Computer Science, Ferhat Abbas University, DZ
3 Department of New Technologies of Information and Communication, Ouargla University, DZ
4 Department of Computer Science, University of Caen Lower, FR
Source
ICTACT Journal on Image and Video Processing, Vol 8, No 4 (2018), Pagination: 1793-1799Abstract
In this paper, a new method based on Log Gabor- TPLBP (LGTPLBP) has been proposed. However the Three Patch Local Binary Patterns (TPLBP) technique used in face recognition has been applied in Finger-Knuckle-Print (FKP) recognition. The 1D- Log Gabor filter has been used to extract the real and the imaginary images from each of the Region of Interest (ROI) of FKP images. Then the TPLBP descriptor on both images has been applied to extract the feature vectors of the real image and the imaginary image respectively. These feature vectors have been jointed to form a large feature vector for each image FKP. After that, the obtained feature vectors of all images are processed directly with a dimensionality reduction algorithm, using linear discriminant analysis (LDA). Finally, the cosine Mahalanobis distance (MAH) has been used for matching stage. To evaluate the effectiveness of the proposed system several experiments have been carried out. The Hong Kong Polytechnic University (PolyU) FKP database has been used during all of the tests. Experimental results show that the introduced system achieves better results than other state-of-the-art systems for both verification and identification.Keywords
Biometric Systems, Three Patch Local Binary Patterns, 1D Log Gabor Filter, Finger Knuckle Print.References
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- Ensemble of Preprocessing Techniques for 3D Palmprint Recognition with Collaborative Representation based Classification
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Authors
Affiliations
1 Computer Science Department, Mohamed El Bachir El Ibrahimi University of Bordj Bou Arreridj, DZ
2 Computer Science Department, Ferhat Abbas University, DZ
3 Department of Computer Science, University of Caen, FR
4 Ouargla University, DZ
1 Computer Science Department, Mohamed El Bachir El Ibrahimi University of Bordj Bou Arreridj, DZ
2 Computer Science Department, Ferhat Abbas University, DZ
3 Department of Computer Science, University of Caen, FR
4 Ouargla University, DZ
Source
ICTACT Journal on Image and Video Processing, Vol 11, No 1 (2020), Pagination: 2244-2250Abstract
3D Palmprint recognition has become a promising alternative tool for resolving problems compared to the robustness of 2D palmprint recognition. Regarding robustness, biometric systems that use 2D Palmprint suffer from being attacked by using a fake Palmprint identical. Given this, the current paper introduces a new 3D Palmprint recognition approach. Firstly, a set of preprocessing techniques has been applied on 3D depth image such as Tan and Triggs method which can effectively and efficiently eliminate the effect of the low-frequency component with keeping the local statistical properties of the processed image. Then, Gabor wavelets have been employed to extract features. After that, the extracted features have been used as an input in the collaborative representation based classification with regularized least squares (CRC_RLS) to classify the 3D Palmprint images. To evaluate its performance, the proposed algorithm has been applied on the PolyU 3D Palmprint database which contains 8.000 samples. The experimental results successfully and greatly improve the recognition results, especially when, we use Tan and Triggs method for preprocessing and Gabor for feature extraction with CRC_RLS for presentation and classification. We achieve a significant recognition rate of 100 % in lowest Runtime which reflects the robustness of the proposed recognition system.Keywords
Three-Dimensional Palmprint, Biometric, Gaussian Difference Filtering, Gradient Palms, Weberpalms, Gabor Features, Self-Quotient Image Algorithm.References
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