Efficient Low-Resolution Face Recognition via Bridge Distillation

arXiv - CS - Multimedia Pub Date : 2024-09-18 DOI:arxiv-2409.11786

Shiming Ge, Shengwei Zhao, Chenyu Li, Yu Zhang, Jia Li

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Abstract

Face recognition in the wild is now advancing towards light-weight models, fast inference speed and resolution-adapted capability. In this paper, we propose a bridge distillation approach to turn a complex face model pretrained on private high-resolution faces into a light-weight one for low-resolution face recognition. In our approach, such a cross-dataset resolution-adapted knowledge transfer problem is solved via two-step distillation. In the first step, we conduct cross-dataset distillation to transfer the prior knowledge from private high-resolution faces to public high-resolution faces and generate compact and discriminative features. In the second step, the resolution-adapted distillation is conducted to further transfer the prior knowledge to synthetic low-resolution faces via multi-task learning. By learning low-resolution face representations and mimicking the adapted high-resolution knowledge, a light-weight student model can be constructed with high efficiency and promising accuracy in recognizing low-resolution faces. Experimental results show that the student model performs impressively in recognizing low-resolution faces with only 0.21M parameters and 0.057MB memory. Meanwhile, its speed reaches up to 14,705, ~934 and 763 faces per second on GPU, CPU and mobile phone, respectively.

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通过桥式蒸馏实现高效低分辨率人脸识别

目前，野生人脸识别正朝着轻量级模型、快速推理速度和分辨率适应能力的方向发展。在本文中，我们提出了一种桥式蒸馏方法，将在私人高分辨率人脸上预先训练好的复杂人脸模型转化为轻量级模型，用于低分辨率人脸识别。在我们的方法中，这种跨数据集分辨率适应知识转移问题是通过两步蒸馏法来解决的。第一步，我们进行跨数据集蒸馏，将私有高分辨率人脸中的先验知识转移到公共高分辨率人脸中，并生成紧凑且具有辨别力的特征。第二步，通过多任务学习，进行分辨率适应蒸馏，进一步将先验知识转移到合成低分辨率人脸。通过学习低分辨率的人脸图像并模仿经过调整的高分辨率知识，可以构建一个轻量级的学生模型，该模型识别低分辨率人脸的效率和准确率都很高。实验结果表明，该学生模型在识别低分辨率人脸时表现出色，仅需 0.21M 参数和 0.057MB 内存。同时，在 GPU、CPU 和手机上的识别速度分别达到每秒 14705、934 和 763 张人脸。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - CS - Multimedia

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