基于类初始卷积神经网络的视网膜血管分割

News. Phi Delta Epsilon Pub Date : 2020-01-01 DOI:10.5220/0009638100530058

H. N. Shirvan, R. A. Moghadam, K. Madani

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引用次数: 1

摘要

深度学习架构已经在一些神经网络中被提出，如卷积神经网络(CNN)、递归神经网络和深度信念神经网络。其中，cnn在图像处理任务中得到了频繁的应用。医学图像处理是智能图像处理的一个重要领域，它为医学应用提供了智能工具和软件。对视网膜图像中的血管进行分析将有助于医生发现一些视网膜疾病，如青光眼甚至糖尿病。本文提出了一种新的神经网络结构，可以对视网膜图像进行处理，并在视网膜背景之外检测血管。该神经网络由卷积层、连接层和转置卷积层组成。DRIVE数据集的结果在准确性、召回率和f测量标准方面显示出可接受的性能。

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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Retinal Vessel Segmentation by Inception-like Convolutional Neural Networks

: Deep learning architectures have been proposed in some neural networks like convolutional neural networks (CNN), recurrent neural networks and deep belief neural networks. Among them, CNNs have been applied in image processing tasks frequently. An important section in intelligent image processing is medical image processing which provides intelligent tools and software for medical applications. Analysis of blood vessels in retinal images would help the physicians to detect some retina diseases like glaucoma or even diabetes. In this paper a new neural network structure is proposed which can process the retinal images and detect vessels apart from retinal background. This neural network consists of convolutional layers, concatenate layers and transpose convolutional layers. The results for DRIVE dataset show acceptable performance regarding to accuracy, recall and F-measure criteria.

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