Publications
2024
1.
Apap, Adrian; Bhole, Amey; Fernández-Robles, Laura; Castejón-Limas, Manuel; Azzopardi, George
Explainable multi-layer COSFIRE filters robust to corruptions and boundary attack with application to retina and palmprint biometrics Artículo de revista
En: Neural Computing and Applications, vol. 36, no 30, pp. 19231–19245, 2024, (Publisher: Springer London London).
Resumen | Enlaces | BibTeX | Etiquetas: biometrics, COSFIRE Filters, Explanaible AI
@article{apap_explainable_2024,
title = {Explainable multi-layer COSFIRE filters robust to corruptions and boundary attack with application to retina and palmprint biometrics},
author = {Adrian Apap and Amey Bhole and Laura Fernández-Robles and Manuel Castejón-Limas and George Azzopardi},
url = {https://link.springer.com/article/10.1007/s00521-024-10164-8},
year = {2024},
date = {2024-01-01},
journal = {Neural Computing and Applications},
volume = {36},
number = {30},
pages = {19231–19245},
abstract = {This work introduces a unified and explainable biometric recognition method using hierarchical COSFIRE filters for retina and palmprint identification. The approach leverages COSFIRE’s one-shot trainable nature to capture spatial arrangements of keypoints in biometric images. It delivers state-of-the-art accuracy, including perfect classification on retina datasets and 97.54% on a palmprint dataset. The system remains robust against partial data and most adversarial attacks, while also offering clear, interpretable decision processes suitable for broader applications.},
note = {Publisher: Springer London London},
keywords = {biometrics, COSFIRE Filters, Explanaible AI},
pubstate = {published},
tppubtype = {article}
}
This work introduces a unified and explainable biometric recognition method using hierarchical COSFIRE filters for retina and palmprint identification. The approach leverages COSFIRE’s one-shot trainable nature to capture spatial arrangements of keypoints in biometric images. It delivers state-of-the-art accuracy, including perfect classification on retina datasets and 97.54% on a palmprint dataset. The system remains robust against partial data and most adversarial attacks, while also offering clear, interpretable decision processes suitable for broader applications.
2021
2.
Biswas, Rubel; González-Castro, Víctor; Fidalgo, Eduardo; Alegre, Enrique
A new perceptual hashing method for verification and identity classification of occluded faces Artículo de revista
En: Image and Vision Computing, vol. 113, pp. 104245, 2021, (Publisher: Elsevier).
Resumen | Enlaces | BibTeX | Etiquetas: biometrics, face verification, oclussion handling, perceptual hashing
@article{biswas_new_2021,
title = {A new perceptual hashing method for verification and identity classification of occluded faces},
author = {Rubel Biswas and Víctor González-Castro and Eduardo Fidalgo and Enrique Alegre},
url = {https://www.sciencedirect.com/science/article/pii/S0262885621001505},
year = {2021},
date = {2021-01-01},
journal = {Image and Vision Computing},
volume = {113},
pages = {104245},
abstract = {Recently, research communities on Computer Vision and biometrics have shown a lot of interest in face verification and classification methods. Fighting against Child Sexual Exploitation Material (CSEM) is one of the applications that might benefit most from these advances. In CSEM, discriminative parts of the face, i.e. mostly the eyes, are often occluded to make the victim identification more difficult. Most of the current face recognition methods are not able to handle such kind of occlusions. To overcome this problem, we present One-Shot Frequency Dominant Neighborhood Structure (OSF-DNS), a new perceptual hashing method that shows advantages on two scenarios: (a) occluded face verification, i.e., matching occluded faces with their non-occluded versions, and (b) face classification, i.e., getting the identity of an occluded face by means of a classifier trained with the non-occluded faces using the perceptual hash codes as feature vectors. We have compared the face verification performance of OSF-DNS with three perceptual hashing methods and with the features obtained from five deep learning techniques, using the occluded versions of six different facial datasets. The proposed method achieves accuracies between 69.24% and 99.46% depending on the dataset, and always higher than the compared methods. For the face classification task, we compared the performance of OSF-DNS with the features obtained by four deep learning techniques. Experimental results on LFW and CFPW datasets showed that the proposed hashing method outperformed the results obtained with deep features with an accuracy up to 89.53%.},
note = {Publisher: Elsevier},
keywords = {biometrics, face verification, oclussion handling, perceptual hashing},
pubstate = {published},
tppubtype = {article}
}
Recently, research communities on Computer Vision and biometrics have shown a lot of interest in face verification and classification methods. Fighting against Child Sexual Exploitation Material (CSEM) is one of the applications that might benefit most from these advances. In CSEM, discriminative parts of the face, i.e. mostly the eyes, are often occluded to make the victim identification more difficult. Most of the current face recognition methods are not able to handle such kind of occlusions. To overcome this problem, we present One-Shot Frequency Dominant Neighborhood Structure (OSF-DNS), a new perceptual hashing method that shows advantages on two scenarios: (a) occluded face verification, i.e., matching occluded faces with their non-occluded versions, and (b) face classification, i.e., getting the identity of an occluded face by means of a classifier trained with the non-occluded faces using the perceptual hash codes as feature vectors. We have compared the face verification performance of OSF-DNS with three perceptual hashing methods and with the features obtained from five deep learning techniques, using the occluded versions of six different facial datasets. The proposed method achieves accuracies between 69.24% and 99.46% depending on the dataset, and always higher than the compared methods. For the face classification task, we compared the performance of OSF-DNS with the features obtained by four deep learning techniques. Experimental results on LFW and CFPW datasets showed that the proposed hashing method outperformed the results obtained with deep features with an accuracy up to 89.53%.