SymFace: Additional Facial Symmetry Loss for Deep Face Recognition

arXiv - CS - Computer Vision and Pattern Recognition Pub Date : 2024-09-18 DOI:arxiv-2409.11816

Pritesh Prakash, Koteswar Rao Jerripothula, Ashish Jacob Sam, Prinsh Kumar Singh, S Umamaheswaran

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Abstract

Over the past decade, there has been a steady advancement in enhancing face recognition algorithms leveraging advanced machine learning methods. The role of the loss function is pivotal in addressing face verification problems and playing a game-changing role. These loss functions have mainly explored variations among intra-class or inter-class separation. This research examines the natural phenomenon of facial symmetry in the face verification problem. The symmetry between the left and right hemi faces has been widely used in many research areas in recent decades. This paper adopts this simple approach judiciously by splitting the face image vertically into two halves. With the assumption that the natural phenomena of facial symmetry can enhance face verification methodology, we hypothesize that the two output embedding vectors of split faces must project close to each other in the output embedding space. Inspired by this concept, we penalize the network based on the disparity of embedding of the symmetrical pair of split faces. Symmetrical loss has the potential to minimize minor asymmetric features due to facial expression and lightning conditions, hence significantly increasing the inter-class variance among the classes and leading to more reliable face embedding. This loss function propels any network to outperform its baseline performance across all existing network architectures and configurations, enabling us to achieve SoTA results.

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SymFace：深度人脸识别的额外面部对称性损失

过去十年来，利用先进的机器学习方法改进人脸识别算法的工作取得了稳步进展。损失函数在解决人脸识别问题中起着举足轻重的作用，并扮演着改变游戏规则的角色。这些损失函数主要探讨了类内或类间分离的变化。本研究探讨了人脸验证问题中的人脸对称这一自然现象。近几十年来，左右半边脸对称已被广泛应用于许多研究领域。本文采用这种简单的方法，将人脸图像垂直分成两半。受这一概念的启发，我们根据对称的一对分割人脸的嵌入差异对网络进行惩罚。对称损失有可能最大限度地减少由于面部表情和光照条件而导致的轻微不对称特征，从而显著增加类间差异，实现更可靠的人脸嵌入。这种损耗功能可以推动任何网络在所有现有网络架构和配置中超越其基准性能，从而使我们获得 SoTA 结果。

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arXiv - CS - Computer Vision and Pattern Recognition

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