A method for selecting and ranking quality metrics for optimization of biometric recognition systems

N. Schmid, Francesco Nicolo
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引用次数: 9

Abstract

In the field of biometrics evaluation of quality of biometric samples has a number of important applications. The main applications include (1) to reject poor quality images during acquisition, (2) to use as enhancement metric, and (3) to apply as a weighting factor in fusion schemes. Since a biometric-based recognition system relies on measures of performance such as matching scores and recognition probability of error, it becomes intuitive that the metrics evaluating biometric sample quality have to be linked to the recognition performance of the system. The goal of this work is to design a method for evaluating and ranking various quality metrics applied to biometric images or signals based on their ability to predict recognition performance of a biometric recognition system. The proposed method involves: (1) Preprocessing algorithm operating on pairs of quality scores and generating relative scores, (2) Adaptive multivariate mapping relating quality scores and measures of recognition performance and (3) Ranking algorithm that selects the best combinations of quality measures. The performance of the method is demonstrated on face and iris biometric data.
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一种用于优化生物特征识别系统的质量度量的选择和排序方法
在生物识别领域中,生物识别样品的质量评价有着许多重要的应用。主要应用包括(1)在采集过程中剔除质量差的图像,(2)用作增强度量,以及(3)作为融合方案中的加权因子。由于基于生物特征的识别系统依赖于诸如匹配分数和识别错误概率等性能度量,因此评估生物特征样本质量的度量必须与系统的识别性能联系起来,这变得很直观。这项工作的目标是设计一种方法,根据生物特征图像或信号预测识别性能的能力,对应用于生物特征图像或信号的各种质量指标进行评估和排序。该方法包括:(1)对质量分数对进行预处理并生成相对分数的算法;(2)质量分数与识别性能指标之间的自适应多变量映射;(3)选择最佳质量指标组合的排序算法。在人脸和虹膜生物特征数据上验证了该方法的有效性。
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