Xiuzhuang Zhou scite author profile

Binary feature descriptors such as local binary patterns (LBP) and its variations have been widely used in many face recognition systems due to their excellent robustness and strong discriminative power. However, most existing binary face descriptors are hand-crafted, which require strong prior knowledge to engineer them by hand. In this paper, we propose a compact binary face descriptor (CBFD) feature learning method for face representation and recognition. Given each face image, we first extract pixel difference vectors (PDVs) in local patches by computing the difference between each pixel and its neighboring pixels. Then, we learn a feature mapping to project these pixel difference vectors into low-dimensional binary vectors in an unsupervised manner, where 1) the variance of all binary codes in the training set is maximized, 2) the loss between the original real-valued codes and the learned binary codes is minimized, and 3) binary codes evenly distribute at each learned bin, so that the redundancy information in PDVs is removed and compact binary codes are obtained. Lastly, we cluster and pool these binary codes into a histogram feature as the final representation for each face image. Moreover, we propose a coupled CBFD (C-CBFD) method by reducing the modality gap of heterogeneous faces at the feature level to make our method applicable to heterogeneous face recognition. Extensive experimental results on five widely used face datasets show that our methods outperform state-of-the-art face descriptors.

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Visually Interpretable Representation Learning for Depression Recognition from Facial Images

Zhou

Jin

Shang

et al. 2020

IEEE Trans. Affective Comput.

181

117

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Discriminative Multimetric Learning for Kinship Verification

Yan

Deng

et al. 2014

IEEE Trans.Inform.Forensic Secur.

200

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Prototype-Based Discriminative Feature Learning for Kinship Verification

Yan

Zhou

2015

IEEE Trans. Cybern.

151

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In this paper, we propose a new prototype-based discriminative feature learning (PDFL) method for kinship verification. Unlike most previous kinship verification methods which employ low-level hand-crafted descriptors such as local binary pattern and Gabor features for face representation, this paper aims to learn discriminative mid-level features to better characterize the kin relation of face images for kinship verification. To achieve this, we construct a set of face samples with unlabeled kin relation from the labeled face in the wild dataset as the reference set. Then, each sample in the training face kinship dataset is represented as a mid-level feature vector, where each entry is the corresponding decision value from one support vector machine hyperplane. Subsequently, we formulate an optimization function by minimizing the intraclass samples (with a kin relation) and maximizing the neighboring interclass samples (without a kin relation) with the mid-level features. To better use multiple low-level features for mid-level feature learning, we further propose a multiview PDFL method to learn multiple mid-level features to improve the verification performance. Experimental results on four publicly available kinship datasets show the superior performance of the proposed methods over both the state-of-the-art kinship verification methods and human ability in our kinship verification task.

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Gabor-based gradient orientation pyramid for kinship verification under uncontrolled environments

Zhou

et al. 2012

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Xiuzhuang Zhou

Learning Compact Binary Face Descriptor for Face Recognition

Visually Interpretable Representation Learning for Depression Recognition from Facial Images

Discriminative Multimetric Learning for Kinship Verification

Prototype-Based Discriminative Feature Learning for Kinship Verification

Gabor-based gradient orientation pyramid for kinship verification under uncontrolled environments

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