Alicia Anggelia Lumbantoruan, A. Bustamam, P. Anki
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引用次数: 0
摘要
视网膜是眼睛的重要组成部分,负责将视觉信息传递给大脑。为了维护眼睛,眼科医生需要定期检查,但价格昂贵且需要时间。因此,技术发展有望帮助医学界检测疾病。该技术是图像处理。卷积神经网络(CNN)是目前最流行的处理图像分析的神经网络模型,可以准确地从图像中识别模式。本研究使用534张眼底图像检测结节病、视盘拔罐病和镶嵌病。该架构采用了基于卷积神经网络的支持向量机(CNN based SVM)和DenseNet, DenseNet是卷积神经网络架构的一种发展。为了获得最好的结果,在本研究中,我们使用了几种优化器的变体,即adam, nadam和RMSprop,使用DenseNet架构的精度值为93.21%,可以看出本研究的最佳结果。
Retinal Disease for Clasification Multilabel with Applying Convolutional Neural Networks Based Support Vector Machine and DenseNet
The retina is an essential part of the eye and works to transmit visual information to the brain. In maintaining the eye, an ophthalmologist needs regular examinations, but the price is expensive and takes time. Therefore, technological developments are expected to help the medical world to detect diseases. The technology is image processing. Convolutional Neural Network (CNN) is the most popular neural network model to handle image analysis and can recognize patterns from an image accurately. This study detected Drusens, Optic Disc Cupping, and Tessellation diseases using 534 fundus images. The architecture used Convolutional Neural Network-based Support Vector Machine (CNN based SVM) and DenseNet, which is a Convolutional Neural Network architecture development. In obtaining the best results, in this study, we use several variations of the optimizer, namely adam, nadam, and RMSprop, and the best results from this study can be seen from the accuracy value of 93,21% using the DenseNet architecture.
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