基于CNN的深度学习方法的mri脑肿瘤图像检测

Arkapravo Chattopadhyay, Mausumi Maitra
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引用次数: 63

摘要

在现代,检查大量的MRI(磁共振成像)图像并由人类手动发现脑肿瘤是一项非常繁琐和不准确的任务。它会影响对病人的适当治疗。同样,这可能是一个非常耗时的任务,因为它涉及大量的图像数据集。正常组织和脑肿瘤细胞在外观上有很好的相似性,因此肿瘤区域的分割成为一项困难的任务。因此,需要一种高精度的肿瘤自动检测方法。方法在传统分类器和深度学习的基础上,提出了一种基于卷积神经网络的二维磁共振脑图像脑肿瘤分割算法。我们已经拍摄了不同肿瘤大小、位置、形状和不同图像强度的各种MRI图像,以很好地训练模型。此外,我们还应用了SVM分类器和其他激活算法(softmax, RMSProp, sigmoid等)来交叉检查我们的工作。我们使用“TensorFlow”和“Keras”在“Python”中实现我们提出的方法,因为它是一种高效的编程语言,可以执行快速工作。结果在我们的工作中,CNN获得了99.74%的准确率,优于目前得到的结果状态。结论我们的基于CNN的模型可以帮助医生准确地在MRI图像中发现脑肿瘤,从而大大提高治疗速度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MRI-based brain tumour image detection using CNN based deep learning method

Introduction

In modern days, checking the huge number of MRI (magnetic resonance imaging) images and finding a brain tumour manually by a human is a very tedious and inaccurate task. It can affect the proper medical treatment of the patient. Again, it can be a hugely time-consuming task as it involves a huge number of image datasets. There is a good similarity between normal tissue and brain tumour cells in appearance, so segmentation of tumour regions become a difficult task to do. So there is an essentiality for a highly accurate automatic tumour detection method.

Method

In this paper, we proposed an algorithm to segment brain tumours from 2D Magnetic Resonance brain Images (MRI) by a convolutional neural network which is followed by traditional classifiers and deep learning methods. We have taken various MRI images with diverse Tumour sizes, locations, shapes, and different image intensities to train the model well. Furthermore, we have applied SVM classifier and other activation algorithms (softmax, RMSProp, sigmoid, etc) to cross-check our work. We implement our proposed method using “TensorFlow” and “Keras” in “Python” as it is an efficient programming language to perform fast work.

Result

In our work, CNN gained an accuracy of 99.74%, which is better than the state of the result obtained so far.

Conclusion

Our CNN based model will help the doctors to detect brain tumours in MRI images accurately, so that the speed in treatment will increase a lot.

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来源期刊
Neuroscience informatics
Neuroscience informatics Surgery, Radiology and Imaging, Information Systems, Neurology, Artificial Intelligence, Computer Science Applications, Signal Processing, Critical Care and Intensive Care Medicine, Health Informatics, Clinical Neurology, Pathology and Medical Technology
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