基于质量的概率框架改进人脸识别

N. Ozay, Yan Tong, F. Wheeler, Xiaoming Liu
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引用次数: 31

摘要

本文解决了开发面部图像质量指标的问题,这些指标可以预测现有生物识别匹配算法的性能,并将质量估计纳入识别决策过程以提高整体性能。我们考虑的第一个任务是分离探针/画廊质量,因为匹配分数取决于两者。给定同一个体的一组训练图像,我们找到所有可能的探针/画廊图像对之间的匹配分数。然后,我们定义任意对的对称归一化匹配分数,将其建模为被加性噪声破坏的探针/通道质量的平均值,并估计质量值以使噪声最小化。为了在决策过程中利用质量,我们使用贝叶斯网络来建模质量、预定义的质量相关图像特征和识别之间的关系。该模型通过概率推理进行识别决策。我们通过各种人脸验证实验说明,将质量纳入决策过程可以显着提高性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improving face recognition with a quality-based probabilistic framework
This paper addresses the problem of developing facial image quality metrics that are predictive of the performance of existing biometric matching algorithms and incorporating the quality estimates into the recognition decision process to improve overall performance. The first task we consider is the separation of probe/gallery qualities since the match score depends on both. Given a set of training images of the same individual, we find the match scores between all possible probe/gallery image pairs. Then, we define symmetric normalized match score for any pair, model it as the average of the qualities of probe/gallery corrupted by additive noise, and estimate the quality values such that the noise is minimized. To utilize quality in the decision process, we employ a Bayesian network to model the relationships among qualities, predefined quality related image features and recognition. The recognition decision is made by probabilistic inference via this model. We illustrate with various face verification experiments that incorporating quality into the decision process can improve the performance significantly.
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