Jia Guo scite author profile

One of the main challenges in feature learning using Deep Convolutional Neural Networks (DCNNs) for largescale face recognition is the design of appropriate loss functions that enhance discriminative power. Centre loss penalises the distance between the deep features and their corresponding class centres in the Euclidean space to achieve intra-class compactness. SphereFace assumes that the linear transformation matrix in the last fully connected layer can be used as a representation of the class centres in an angular space and penalises the angles between the deep features and their corresponding weights in a multiplicative way. Recently, a popular line of research is to incorporate margins in well-established loss functions in order to maximise face class separability. In this paper, we propose an Additive Angular Margin Loss (ArcFace) to obtain highly discriminative features for face recognition. The proposed ArcFace has a clear geometric interpretation due to the exact correspondence to the geodesic distance on the hypersphere. We present arguably the most extensive experimental evaluation of all the recent state-of-the-art face recognition methods on over 10 face recognition benchmarks including a new large-scale image database with trillion level of pairs and a large-scale video dataset. We show that Ar-cFace consistently outperforms the state-of-the-art and can be easily implemented with negligible computational overhead. We release all refined training data, training codes, pre-trained models and training logs 1 , which will help reproduce the results in this paper. * denotes equal contribution to this work.

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ArcFace: Additive Angular Margin Loss for Deep Face Recognition

Deng

Guo

Yang

et al. 2022

IEEE Trans. Pattern Anal. Mach. Intell.

944

1,879

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RetinaFace: Single-Shot Multi-Level Face Localisation in the Wild

et al. 2020

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RetinaFace: Single-stage Dense Face Localisation in the Wild

Deng¹,

Guo²,

Zhou³

et al. 2019

Preprint

147

141

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Though tremendous strides have been made in uncontrolled face detection, accurate and efficient face localisation in the wild remains an open challenge. This paper presents a robust single-stage face detector, named RetinaFace, which performs pixel-wise face localisation on various scales of faces by taking advantages of joint extra-supervised and self-supervised multi-task learning. Specifically, We make contributions in the following five aspects: (1) We manually annotate five facial landmarks on the WIDER FACE dataset and observe significant improvement in hard face detection with the assistance of this extra supervision signal. (2) We further add a selfsupervised mesh decoder branch for predicting a pixel-wise 3D shape face information in parallel with the existing supervised branches. (3) On the WIDER FACE hard test set, RetinaFace outperforms the state of the art average precision (AP) by 1.1% (achieving AP equal to 91.4%). (4) On the IJB-C test set, RetinaFace enables state of the art methods (ArcFace) to improve their results in face verification (TAR=89.59% for FAR=1e-6). (5) By employing light-weight backbone networks, RetinaFace can run real-time on a single CPU core for a VGA-resolution image. Extra annotations and code have been made available at: https://github.com/deepinsight/ insightface/tree/master/RetinaFace.

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Watermarking deep neural networks for embedded systems

2018

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Jia Guo

ArcFace: Additive Angular Margin Loss for Deep Face Recognition

ArcFace: Additive Angular Margin Loss for Deep Face Recognition

RetinaFace: Single-Shot Multi-Level Face Localisation in the Wild

RetinaFace: Single-stage Dense Face Localisation in the Wild

Watermarking deep neural networks for embedded systems

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