Cascading Framework for Multi-level Image Quality Evaluation

2020 5th International Conference on Computer and Communication Systems (ICCCS) Pub Date : 2020-05-01 DOI:10.1109/ICCCS49078.2020.9118560

Haishan Zhang, Xiaonan Liu

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Abstract

Due to the light interference, mobile terminal iris recognition on the visible light cannot accurately extract texture information that used for iris recognition. In order to solve the problem, image quality evaluation is used to ensure that the iris image quality meets the recognition needs, find an excellent and complete iris structure, and extract the iris texture information to complete the matching. In this paper, a multi-level quality evaluation cascade framework is designed. This paper preprocesses the iris image, and then uses the Tenegrad evaluation function to complete the first level image quality evaluation, and then uses the wavelet transform and BP neural network to accomplish the second level image quality evaluation. To test the effectiveness of the algorithm, 900 iris images in the UBIRIS.v2 iris gallery are used for testing. The accuracy of quality evaluation is 96.1%. The result shows that the method can correctly evaluate the iris image quality, exclude the images that cannot be used for iris recognition, and effectively improve iris recognition on the mobile terminal.

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多层次图像质量评价的级联框架

由于光的干扰，移动终端虹膜识别对可见光无法准确提取用于虹膜识别的纹理信息。为了解决这一问题，采用图像质量评价的方法，保证虹膜图像质量满足识别需求，寻找优秀完整的虹膜结构，提取虹膜纹理信息，完成匹配。本文设计了一个多层次质量评价级联框架。本文对虹膜图像进行预处理，然后利用teneggrad评价函数完成第一级图像质量评价，然后利用小波变换和BP神经网络完成第二级图像质量评价。为了测试算法的有效性，在UBIRIS中使用了900幅虹膜图像。使用V2虹膜图库进行测试。质量评价准确率为96.1%。结果表明，该方法能够正确评价虹膜图像质量，排除不能用于虹膜识别的图像，有效提高移动终端上的虹膜识别能力。

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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来源期刊

2020 5th International Conference on Computer and Communication Systems (ICCCS)

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