Optimisation des Systèmes Multimodaux pour l’Identification dans l’Imagerie

Parmi les médias les plus populaires qui ont pris une place incontournable pour le développement des systèmes de reconnaissances biométriques en général et les systèmes de la reconnaissance de visage en particulier on trouve l’Image. L’une des utilisations les plus courantes des images est l’identification/vérification en biométrie qui connaît un intérêt grandissant depuis quelques années. L’efficacité des techniques d’identification en imagerie est aujourd’hui très fortement liée à des contraintes fortes imposées à l’utilisateur. Une voie de recherche actuelle se tourne donc vers la gestion de situations où l’acquisition des données est moins contrainte. Finalement, l’usage d’une seule modalité est souvent limité en termes de performance ou de difficultés d’usage, c’est pourquoi il apparaît intéressant d’évaluer l’apport de la multi-modalité dans ce contexte. L’objectif de la thèse est de mener un travail pour poursuivre une recherche tournée à la fois vers les techniques d’optimisation basées d’une part sur les descripteurs hybrides et les patchs ainsi que leurs techniques de fusions, et d’autre part sur le Deep Learning (Transfer Learning). Nous nous intéressons plus particulièrement à l’image du visage et nos approches sont validées sur plusieurs bases de données universelles pour défier tous les aléas d’acquisition et d’environnements non contrôlés

Reconnaissance Biométrique par Fusion Multimodale de Visages

Biometric systems are considered to be one of the most effective methods of protecting and securing private or public life against all types of theft. Facial recognition is one of the most widely used methods, not because it is the most efficient and reliable, but rather because it is natural and non-intrusive and relatively accepted compared to other biometrics such as fingerprint and iris. The goal of developing biometric applications, such as facial recognition, has recently become important in smart cities. Over the past decades, many techniques, the applications of which include videoconferencing systems, facial reconstruction, security, etc. proposed to recognize a face in a 2D or 3D image. Generally, the change in lighting, variations in pose and facial expressions make 2D facial recognition less than reliable. However, 3D models may be able to overcome these constraints, except that most 3D facial recognition methods still treat the human face as a rigid object. This means that these methods are not able to handle facial expressions. In this thesis, we propose a new approach for automatic face verification by encoding the local information of 2D and 3D facial images as a high order tensor. First, the histograms of two local multiscale descriptors (LPQ and BSIF) are used to characterize both 2D and 3D facial images. Next, a tensor-based facial representation is designed to combine all the features extracted from 2D and 3D faces. Moreover, to improve the discrimination of the proposed tensor face representation, we used two multilinear subspace methods (MWPCA and MDA combined with WCCN). In addition, the WCCN technique is applied to face tensors to reduce the effect of intra-class directions using a normalization transform, as well as to improve the discriminating power of MDA. Our experiments were carried out on the three largest databases: FRGC v2.0, Bosphorus and CASIA 3D under different facial expressions, variations in pose and occlusions. The experimental results have shown the superiority of the proposed approach in terms of verification rate compared to the recent state-of-the-art method

Biometric Systems

Because of the accelerating progress in biometrics research and the latest nation-state threats to security, this book's publication is not only timely but also much needed. This volume contains seventeen peer-reviewed chapters reporting the state of the art in biometrics research: security issues, signature verification, fingerprint identification, wrist vascular biometrics, ear detection, face detection and identification (including a new survey of face recognition), person re-identification, electrocardiogram (ECT) recognition, and several multi-modal systems. This book will be a valuable resource for graduate students, engineers, and researchers interested in understanding and investigating this important field of study