在彩色眼底图像上部署CNN自动检测青光眼

International Journal of Applied Science and Engineering Pub Date : 2023-01-01 DOI:10.6703/ijase.202303_20(1).003

Ankita Ghorui, S. Chatterjee, Roshan Makkar, Arulmozhivarman Pachiyappan, S. Balamurugan

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引用次数: 1

摘要

青光眼的检测已变得至关重要，因为它已成为世界各地视力损害的后续重要驱动因素。目前，大多数使用的算法依赖于预训练的深度神经网络来产生最佳结果。然而，青光眼检测的计算时间和复杂度较高，且需要庞大的数据库，这使得青光眼检测工作艰巨而困难。考虑到这些，本文提出了一种新的卷积神经网络架构，特别是ProspectNet，在对两个预训练网络(VGG16和DenseNet121)进行测试时，它已经证明可以以更少的计算时间和复杂性实现更好的准确性。该数据集是两个公开可用的数据集- drishti - gs和青光眼数据集(Kaggle)的合并，包括青光眼和正常眼睛的眼底颜色图像。ProspectNet的正常AUC(曲线下面积)为0.991，特异性为0.98，精密度为0.98。还绘制了混淆矩阵来说明新架构的有效性。这些结果表明，对于中等规模的数据集，与其他同类最佳计算相比，ProspectNet是一个不错的选择。本文提出了三种不同的青光眼检测结构。我们的方法的一个优点是不需要特殊的特征选择，比如对视神经头的结构等特定特征的详细测量。

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Deployment of CNN on colour fundus images for the automatic detection of glaucoma

Detection of glaucoma has become critical, as it has arisen as the subsequent essential driver of visual impairment, around the world. At present, most of the algorithms in use rely on pre-trained deep neural networks to produce the best results. However, the high computational time and complexity and the need of a large database, make glaucoma-detection arduous and difficult. Keeping these in mind, this paper proposes a new convolutional neural network architecture, in particular, ProspectNet, which has demonstrated to accomplish a better accuracy with lesser computational time and complexity when tested against two pre-trained networks: VGG16 and DenseNet121. The data set is an amalgamation of two publicly available datasets-DRISHTI-GS and Glaucoma Dataset (Kaggle), comprising ocular colour fundus images of glaucomatous as well as normal eyes. ProspectNet has accomplished a normal AUC (area under the curve) as 0.991, specificity, and precision as 0.98. Confusion matrices also plotted to illustrate the new architecture’s efficacy. These outcomes demonstrate that ProspectNet is a hearty option in contrast to other best in class calculations for a medium sized dataset. The paper suggests three distinct structures for glaucoma detection. One advantage of our approach is that no special feature selection, such as detailed measurements of particular traits like the structure of the optic nerve head, is necessary.

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来源期刊

International Journal of Applied Science and Engineering Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

2.90

自引率

0.00%

发文量

期刊介绍： IJASE is a journal which publishes original articles on research and development in the fields of applied science and engineering. Topics of interest include, but are not limited to: - Applied mathematics - Biochemical engineering - Chemical engineering - Civil engineering - Computer engineering and software - Electrical/electronic engineering - Environmental engineering - Industrial engineering and ergonomics - Mechanical engineering.