Mohsen Saffari scite author profile

Mohsen Saffari

4Publications

31Citation Statements Received

67Citation Statements Given

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Affiliations

University of Tulsa, Institute for Systems and Computer Engineering of Porto, University of Porto

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MFR 2021: Masked Face Recognition Competition

Boutros

Damer

Kolf

et al. 2021

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This paper presents a summary of the Masked Face Recognition Competitions (MFR) held within the 2021 International Joint Conference on Biometrics (IJCB 2021). The competition attracted a total of 10 participating teams with valid submissions. The affiliations of these teams are diverse and associated with academia and industry in nine different countries. These teams successfully submitted 18 valid solutions. The competition is designed to motivate solutions aiming at enhancing the face recognition accuracy of masked faces. Moreover, the competition considered the deployability of the proposed solutions by taking the compactness of the face recognition models into account. A private dataset representing a collaborative, multisession, real masked, capture scenario is used to evaluate the submitted solutions. In comparison to one of the topperforming academic face recognition solutions, 10 out of the 18 submitted solutions did score higher masked face verification accuracy.

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My Eyes Are Up Here: Promoting Focus on Uncovered Regions in Masked Face Recognition

Neto

Pinto

Saffari

et al. 2021

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Maximum Relevance Minimum Redundancy Dropout with Informative Kernel Determinantal Point Process

Saffari

Khodayar

Ebrahimi

et al. 2021

Sensors

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In recent years, deep neural networks have shown significant progress in computer vision due to their large generalization capacity; however, the overfitting problem ubiquitously threatens the learning process of these highly nonlinear architectures. Dropout is a recent solution to mitigate overfitting that has witnessed significant success in various classification applications. Recently, many efforts have been made to improve the Standard dropout using an unsupervised merit-based semantic selection of neurons in the latent space. However, these studies do not consider the task-relevant information quality and quantity and the diversity of the latent kernels. To solve the challenge of dropping less informative neurons in deep learning, we propose an efficient end-to-end dropout algorithm that selects the most informative neurons with the highest correlation with the target output considering the sparsity in its selection procedure. First, to promote activation diversity, we devise an approach to select the most diverse set of neurons by making use of determinantal point process (DPP) sampling. Furthermore, to incorporate task specificity into deep latent features, a mutual information (MI)-based merit function is developed. Leveraging the proposed MI with DPP sampling, we introduce the novel DPPMI dropout that adaptively adjusts the retention rate of neurons based on their contribution to the neural network task. Empirical studies on real-world classification benchmarks including, MNIST, SVHN, CIFAR10, CIFAR100, demonstrate the superiority of our proposed method over recent state-of-the-art dropout algorithms in the literature.

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Sparse Adversarial Unsupervised Domain Adaptation With Deep Dictionary Learning for Traffic Scene Classification

Saffari

Khodayar

Jalali

2023

IEEE Trans. Emerg. Top. Comput. Intell.

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Mohsen Saffari

MFR 2021: Masked Face Recognition Competition

My Eyes Are Up Here: Promoting Focus on Uncovered Regions in Masked Face Recognition

Maximum Relevance Minimum Redundancy Dropout with Informative Kernel Determinantal Point Process

Sparse Adversarial Unsupervised Domain Adaptation With Deep Dictionary Learning for Traffic Scene Classification

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