Implementasi Metode CNN Multi-Scale Input dan Multi-Feature Network untuk Dugaan Kanker Payudara

JOINTECS (Journal of Information Technology and Computer Science) Pub Date : 2022-05-31 DOI:10.31328/jointecs.v7i2.3637

Ghifari Prameswari Natakusumah, Ernastuti Ernastuti

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引用次数: 2

Abstract

According to WHO, cancer is one type of disease with a high increase in terms of cases around the world. Breast cancer is the highest contributor to morbidity rates in 2020, which is 2.26 million cases. In determining the patient's prognosis, several examinations are needed, one of them is histopathological analysis. However, histopathological analysis is a relatively tedious and time-consuming process. With the development of deep learning, computer vision can be applied for detection in medical images, which is expected to help improve the accuracy of the prognosis and the speed of identification carried out by experts. Based on this knowledge, this study aims to implement multi-class classification (normal, benign, in situ, invasive) and prediction of normal digital tissue images or has suspected cancer cells using the Convolutional Neural Network with multi-scale and multi-feature network (CNN-G). The dataset used is 400 breast tissue image data which are classified into four classes and labeled by a pathologist. The accuracy result obtained from the training is 0.5375~0.54 and has made an increase when the result was compared to single models (CNN14, CNN42, CNN84). Other model evaluation methods conducted are confusion matrix, precision, recall, and f-1 score.

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CNN的多尺寸输入和多功能网络的实施所谓的乳腺癌

据世界卫生组织称，癌症是世界范围内病例增长最快的一种疾病。2020年，乳腺癌是导致发病率最高的疾病，有226万例。在确定患者的预后时，需要进行几项检查，其中一项是组织病理学分析。然而，组织病理学分析是一个相对繁琐和耗时的过程。随着深度学习的发展，计算机视觉可以应用于医学图像的检测，这有望帮助提高专家预测的准确性和识别的速度。基于这一认识，本研究旨在利用多尺度多特征网络卷积神经网络(CNN-G)对正常数字组织图像或疑似癌细胞进行多类别分类(正常、良性、原位、侵袭)和预测。使用的数据集是400个乳腺组织图像数据，由病理学家将其分为四类并进行标记。训练得到的准确率在0.5375~0.54之间，与单个模型(CNN14、CNN42、CNN84)相比，准确率有所提高。其他模型评价方法包括混淆矩阵、精度、召回率和f-1评分。

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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JOINTECS (Journal of Information Technology and Computer Science)

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