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Dynamic Training Data Dropout for Robust Deep Face Recognition

Yaoyao Zhong, Weihong Deng, Han Fang, Jiani Hu, Dongyue Zhao, Xian Li, Dongchao Wen

2021IEEE Transactions on Multimedia24 citationsDOI

Abstract

Learning with noise is a practically challenging problem in deep face recognition. Despite the success of large margin softmax loss functions, these methods are designed for clean face databases. Considering the inevitable noise in the large scale databases, we first analyze the performance of noise in the training databases. For noise-robust deep face recognition, we propose a dynamic training data dropout (DTDD) method to dynamically filter the noise in the training database and gradually form a stable refined database for model learning. Specifically, we leverage the information provided by the model predictions of accumulated training epochs, which can distinguish regular samples and noise effectively and accurately. The proposed DTDD method is easy and stable for implementation, and can be combined with existing state-of-the-art loss functions and network architectures. Extensive experiments on CASIA-WebFace, VGGFace2, and MS-Celeb-1 M databases empirically demonstrate that our proposed method can robustly train deep face recognition models in the presence of label noise and low quality images.

Topics & Concepts

Computer scienceSoftmax functionDropout (neural networks)Artificial intelligenceFacial recognition systemNoise (video)Leverage (statistics)Deep learningPattern recognition (psychology)Machine learningNoise measurementClassifier (UML)Speech recognitionData miningNoise reductionImage (mathematics)Face and Expression RecognitionFace recognition and analysisBiometric Identification and Security
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