Next-Gen brain tumor classification: pioneering with deep learning and finetuned conditional generative adversarial networks

被引：0

作者：

Asiri A.A. ^{[1
]}

Aamir M. ^{[2
]}

Ali T. ^{[2
]}

Shaf A. ^{[2
]}

Irfan M. ^{[3
]}

Mehdar K.M. ^{[4
]}

Alqhtani S.M. ^{[5
]}

Alghamdi A.H. ^{[6
]}

Alshamrani A.F.A. ^{[7
]}

Alshehri O.M. ^{[8
]}

机构：

[1] Radiological Sciences Department, Najran University, Najran

[2] Computer Science, Department of Computer Science, COMSATS University Islamabad, Sahiwal Campus, Sahiwal

[3] Electrical Engineering Department, College of Engineering, Najran University, Najran

[4] Anatomy Department, Medicine College, Najran University, Najran

[5] Department of Information Systems, College of Computer Science and Information Systems, Najran University, Najran

[6] Department of Radiological Sciences, Faculty of Applied Medical Sciences, The University of Tabuk, Tabuk

[7] Department of Diagnostic Radiology Technology, College of Applied Medical Sciences, Taibah University, Madinah

[8] Department of Clinical Laboratory Sciences Faculty of Applied Medical Sciences, Najran University, Najran

来源：

PeerJ Computer Science | 2023年 / 9卷

关键词：

Brain tumor; Conditional generative adversarial network; Discriminator model; Generator model; Tumor classification;

D O I：

10.7717/PEERJ-CS.1667

中图分类号：

学科分类号：

摘要：

Brain tumor has become one of the fatal causes of death worldwide in recent years, affecting many individuals annually and resulting in loss of lives. Brain tumors are characterized by the abnormal or irregular growth of brain tissues that can spread to nearby tissues and eventually throughout the brain. Although several traditional machine learning and deep learning techniques have been developed for detecting and classifying brain tumors, they do not always provide an accurate and timely diagnosis. This study proposes a conditional generative adversarial network (CGAN) that leverages the fine-tuning of a convolutional neural network (CNN) to achieve more precise detection of brain tumors. The CGAN comprises two parts, a generator and a discriminator, whose outputs are used as inputs for fine-tuning the CNN model. The publicly available dataset of brain tumor MRI images on Kaggle was used to conduct experiments for Datasets 1 and 2. Statistical values such as precision, specificity, sensitivity, F1-score, and accuracy were used to evaluate the results. Compared to existing techniques, our proposed CGAN model achieved an accuracy value of 0.93 for Dataset 1 and 0.97 for Dataset 2. © 2023 Asiri et al.

引用

共 32 条

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