Jiankang Deng 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.

841

1,845

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

et al. 2020

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AgeDB: The First Manually Collected, In-the-Wild Age Database

et al. 2017

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Over the last few years, increased interest has arisen with respect to age-related tasks in the Computer Vision community. As a result, several "in-the-wild" databases annotated with respect to the age attribute became available in the literature. Nevertheless, one major drawback of these databases is that they are semi-automatically collected and annotated and thus they contain noisy labels. Therefore, the algorithms that are evaluated in such databases are prone to noisy estimates. In order to overcome such drawbacks, we present in this paper the first, to the best of knowledge, manually collected "in-the-wild" age database, dubbed AgeDB, containing images annotated with accurate to the year, noise-free labels. As demonstrated by a series of experiments utilizing state-of-the-art algorithms, this unique property renders AgeDB suitable when performing experiments on age-invariant face verification, age estimation and face age progression "in-the-wild".

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UV-GAN: Adversarial Facial UV Map Completion for Pose-Invariant Face Recognition

et al. 2018

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Recently proposed robust 3D face alignment methods establish either dense or sparse correspondence between a 3D face model and a 2D facial image. The use of these methods presents new challenges as well as opportunities for facial texture analysis. In particular, by sampling the image using the fitted model, a facial UV can be created. Unfortunately, due to self-occlusion, such a UV map is always incomplete. In this paper, we propose a framework for training Deep Convolutional Neural Network (DCNN) to complete the facial UV map extracted from in-the-wild images. To this end, we first gather complete UV maps by fitting a 3D Morphable Model (3DMM) to various multiview image and video datasets, as well as leveraging on a new 3D dataset with over 3,000 identities. Second, we devise a meticulously designed architecture that combines local and global adversarial DCNNs to learn an identity-preserving facial UV completion model. We demonstrate that by attaching the completed UV to the fitted mesh and generating instances of arbitrary poses, we can increase pose variations for training deep face recognition/verification models, and minimise pose discrepancy during testing, which lead to better performance. Experiments on both controlled and in-the-wild UV datasets prove the effectiveness of our adversarial UV completion model. We achieve state-of-theart verification accuracy, 94.05%, under the CFP frontalprofile protocol only by combining pose augmentation during training and pose discrepancy reduction during testing. We will release the first in-the-wild UV dataset (we refer as WildUV) that comprises of complete facial UV maps from 1,892 identities for research purposes.

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Pretreatment of agricultural residues for co-gasification via torrefaction

Deng

Wang

Jiang-hong

et al. 2009

Journal of Analytical and Applied Pyrolysis

322

155

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A review of thermally activated cooling technologies for combined cooling, heating and power systems

Deng

Wang

Han³

2011

Progress in Energy and Combustion Science

369

130

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RetinaFace: Single-stage Dense Face Localisation in the Wild

Deng¹,

Guo²,

Zhou³

et al. 2019

Preprint

116

124

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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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Jiankang Deng

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

AgeDB: The First Manually Collected, In-the-Wild Age Database

UV-GAN: Adversarial Facial UV Map Completion for Pose-Invariant Face Recognition

Pretreatment of agricultural residues for co-gasification via torrefaction

A review of thermally activated cooling technologies for combined cooling, heating and power systems

RetinaFace: Single-stage Dense Face Localisation in the Wild

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