Attention Control with Metric Learning Alignment for Image Set-based Recognition
Abstract
This paper considers the problem of image set-based face verification and identification. Unlike traditional single sample (an image or a video) setting, this situation assumes the availability of a set of heterogeneous collection of orderless images and videos. The samples can be taken at different check points, different identity documents . The importance of each image is usually considered either equal or based on a quality assessment of that image independent of other images and/or videos in that image set. How to model the relationship of orderless images within a set remains a challenge. We address this problem by formulating it as a Markov Decision Process (MDP) in a latent space. Specifically, we first propose a dependency-aware attention control (DAC) network, which uses actor-critic reinforcement learning for attention decision of each image to exploit the correlations among the unordered images. An off-policy experience replay is introduced to speed up the learning process. Moreover, the DAC is combined with a temporal model for videos using divide and conquer strategies. We also introduce a pose-guided representation (PGR) scheme that can further boost the performance at extreme poses. We propose a parameter-free PGR without the need for training as well as a novel metric learning-based PGR for pose alignment without the need for pose detection in testing stage. Extensive evaluations on IJB-A/B/C, YTF, Celebrity-1000 datasets demonstrate that our method outperforms many state-of-art approaches on the set-based as well as video-based face recognition databases.
Cite
@article{arxiv.1908.01872,
title = {Attention Control with Metric Learning Alignment for Image Set-based Recognition},
author = {Xiaofeng Liu and Zhenhua Guo and Jane You and B. V. K Vijaya Kumar},
journal= {arXiv preprint arXiv:1908.01872},
year = {2019}
}
Comments
Accepted to IEEE T-IFS (Extension of ECCV 2018 paper: Dependency-aware Attention Control for Unconstrained Face Recognition with Image Sets). arXiv admin note: substantial text overlap with arXiv:1907.03030; text overlap with arXiv:1707.00130 by other authors