On the Efficacy of Correcting for Refractive Effects in Iris Recognition

J. R. Price, T. Gee, V. Paquit, K. Tobin
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引用次数: 15

Abstract

In this study, we aim to determine if iris recognition accuracy might be improved by correcting for the refractive effects of the human eye when the optical axes of the eye and camera are misaligned. We undertake this investigation using an anatomically-approximated, three-dimensional model of the human eye and ray-tracing. We generate synthetic iris imagery from different viewing angles using first a simple pattern of concentric rings on the iris for analysis, and then synthetic texture maps on the iris for experimentation. We estimate the distortion from the concentric-ring iris images and use the results to guide the sampling of textured iris images that are distorted by refraction. Using the well-known Gabor filter phase quantization approach, our model-based results indicate that the Hamming distances between iris signatures from different viewing angles can be significantly reduced by accounting for refraction. Over our experimental conditions comprising viewing angles from 0 to 60 degrees, we observe a median reduction in Hamming distance of 27.4% and a maximum reduction of 70.0% when we compensate for refraction. Maximum improvements are observed at viewing angles o/20deg-25deg.
虹膜识别中屈光效应的校正效果研究
在这项研究中,我们的目的是确定是否可以通过校正人眼的折射效应来提高虹膜识别的准确性,当眼睛和相机的光轴不对齐时。我们进行这项调查使用解剖学近似,人眼和光线追踪的三维模型。我们首先在虹膜上使用一个简单的同心圆图案进行分析,然后在虹膜上合成纹理图进行实验,从不同的视角生成合成虹膜图像。我们估计了同心圆虹膜图像的畸变,并利用结果来指导因折射而畸变的纹理虹膜图像的采样。使用著名的Gabor滤波器相位量化方法,我们基于模型的结果表明,不同视角下虹膜特征之间的汉明距离可以通过考虑折射而显著减小。在我们的实验条件下,包括从0到60度的视角,我们观察到汉明距离的中位数减少27.4%,当我们补偿折射时,最大减少70.0%。最大的改进是观察视角0 /20度-25度。
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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