Ilham El Ouariachi scite author profile

<span lang="EN-US">Face recognition is a challenging task due to the complexity of pose variations, occlusion and the variety of face expressions performed by distinct subjects. Thus, many features have been proposed, however each feature has its own drawbacks. Therefore, in this paper, we propose a robust model called Krawtchouk moments convolutional neural networks (KMCNN) for face recognition. Our model is divided into two main steps. Firstly, we use 2D discrete orthogonal Krawtchouk moments to represent features. Then, we fed it into convolutional neural networks (CNN) for classification. The main goal of the proposed approach is to improve the classification accuracy of noisy grayscale face images. In fact, Krawtchouk moments are less sensitive to noisy effects. Moreover, they can extract pertinent features from an image using only low orders. To investigate the robustness of the proposed approach, two types of noise (salt and pepper and speckle) are added to three datasets (YaleB extended, our database of faces (ORL), and a subset of <a name="_Hlk128818620"></a>labeled faces in the wild (LFW)). Experimental results show that KMCNN is flexible and performs significantly better than using just CNN or when we combine it with other discrete moments such as Tchebichef, Hahn, Racah moments in most densities of noises.</span>

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Application to efficient RGB-D sign language recognition using multi-channel Jacobi moment invariants

Ouariachi¹,

Benouini²,

Zenkouar³

et al. 2023

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Sign Language Recognition with Quaternion Moment Invariants: A Comparative Study

Ouariachi

Benouini

Zenkouar

et al. 2021

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A Word-Based Moroccan Sign Language Dataset for Emergency Situations: Use Case COVID-19

Ouariachi

Benouini

Zenkouar

et al. 2023

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