Descrição
A fully automatic methodology to handle the task of segmentation of gliomas in pre-operative MRI scans is developed using a U-Net-based deep learning model that reached high-performance accuracy on the BraTS 2018 training, validation, as well as testing dataset. Brain tumor segmentation seeks to separate healthy tissue from tumorous regions. This is an essential step in diagnosis and treatment planning to maximize the likelihood of successful treatment. Magnetic resonance imaging (MRI) provides detailed information about brain tumor anatomy, making it an important tool for effective diagnosis which is requisite to replace the existing manual detection system where patients rely on the skills and expertise of a human. In order to solve this problem, a brain tumor segmentation & detection system is proposed where experiments are tested on the collected BraTS 2018 dataset. This dataset contains four different MRI modalities for each patient as T1, T2, T1Gd, and FLAIR, and as an outcome, a segmented image and ground truth of tumor segmentation, i.e., class label, is provided. A fully automatic methodology to handle the task of segmentation of gliomas in pre-operative MRI scans is developed using a U-Net-based deep learning model. The first step is to transform input image data, which is further processed through various techniques—subset division, narrow object region, category brain slicing, watershed algorithm, and feature scaling was done. All these steps are implied before entering data into the U-Net Deep learning model. The U-Net Deep learning model is used to perform pixel label segmentation on the segment tumor region. The algorithm reached high-performance accuracy on the BraTS 2018 training, validation, as well as testing dataset. The proposed model achieved a dice coefficient of 0.9815, 0.9844, 0.9804, and 0.9954 on the testing dataset for sets HGG-1, HGG-2, HGG-3, and LGG-1, respectively.
![PDF] Brain Tumor Segmentation of MRI Images Using Processed Image Driven U-Net Architecture](https://nl.mathworks.com/help/examples/images_deeplearning/win64/BrainMRISegmentationUsingTrained3DUNetExample_01.png)
Brain MRI Segmentation Using Pretrained 3-D U-Net Network - MATLAB & Simulink - MathWorks Benelux
![PDF] Brain Tumor Segmentation of MRI Images Using Processed Image Driven U-Net Architecture](https://content.iospress.com/media/xst/2020/28-1/xst-28-1-xst190552/xst-28-xst190552-g011.jpg)
Improving brain tumor segmentation on MRI based on the deep U-net and residual units - IOS Press
![PDF] Brain Tumor Segmentation of MRI Images Using Processed Image Driven U-Net Architecture](https://media.springernature.com/lw685/springer-static/image/art%3A10.1186%2Fs13244-020-00869-4/MediaObjects/13244_2020_869_Fig5_HTML.png)
Convolutional neural networks for brain tumour segmentation, Insights into Imaging
![PDF] Brain Tumor Segmentation of MRI Images Using Processed Image Driven U-Net Architecture](https://0.academia-photos.com/attachment_thumbnails/63989069/mini_magick20200722-28755-1ebq4xj.png?1595405553)
PDF) UNet-VGG16 with transfer learning for MRI-based brain tumor segmentation
![PDF] Brain Tumor Segmentation of MRI Images Using Processed Image Driven U-Net Architecture](https://file.techscience.com/ueditor/files/cmes/TSP_CMES_128-2/TSP_CMES_14107/TSP_CMES_14107/Images/CMES_14107-fig-5.png/mobile_webp)
MRI Brain Tumor Segmentation Using 3D U-Net with Dense Encoder Blocks and Residual Decoder Blocks
![PDF] Brain Tumor Segmentation of MRI Images Using Processed Image Driven U-Net Architecture](https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41598-021-90428-8/MediaObjects/41598_2021_90428_Fig13_HTML.jpg)
Brain tumor segmentation based on deep learning and an attention mechanism using MRI multi-modalities brain images
![PDF] Brain Tumor Segmentation of MRI Images Using Processed Image Driven U-Net Architecture](https://html.scirp.org/file/1-9102840x4.png?20140121090614032)
Brain Tumor Segmentation of HGG and LGG MRI Images Using WFL-Based 3D U-Net
![PDF] Brain Tumor Segmentation of MRI Images Using Processed Image Driven U-Net Architecture](https://ars.els-cdn.com/content/image/1-s2.0-S2950162823000048-gr3.jpg)
Vision transformers in multi-modal brain tumor MRI segmentation: A review - ScienceDirect
![PDF] Brain Tumor Segmentation of MRI Images Using Processed Image Driven U-Net Architecture](https://image.isu.pub/221203102411-2d295fd32a8526195049b137eb92dbb6/jpg/page_1_thumb_large.jpg)
Unet 3+ For Brain Tumor Segmentation : A Study by IRJET Journal - Issuu
![PDF] Brain Tumor Segmentation of MRI Images Using Processed Image Driven U-Net Architecture](https://file.techscience.com/ueditor/files/cmes/TSP_CMES_128-2/TSP_CMES_14107/TSP_CMES_14107/Images/CMES_14107-fig-1.png/mobile_webp)
MRI Brain Tumor Segmentation Using 3D U-Net with Dense Encoder Blocks and Residual Decoder Blocks
![PDF] Brain Tumor Segmentation of MRI Images Using Processed Image Driven U-Net Architecture](https://html.scirp.org/file/1-9102840x6.png?20140121090614032)
Brain Tumor Segmentation of HGG and LGG MRI Images Using WFL-Based 3D U-Net
![PDF] Brain Tumor Segmentation of MRI Images Using Processed Image Driven U-Net Architecture](https://imgv2-2-f.scribdassets.com/img/document/583419727/original/c24467a8ac/1700285566?v=1)
MRI Brain Tumor Segmentation Using U-Net, PDF, Image Segmentation
![PDF] Brain Tumor Segmentation of MRI Images Using Processed Image Driven U-Net Architecture](https://media.springernature.com/m685/springer-static/image/art%3A10.1186%2Fs12859-021-04347-6/MediaObjects/12859_2021_4347_Fig1_HTML.png)
MRI-based brain tumor segmentation using FPGA-accelerated neural network, BMC Bioinformatics
![PDF] Brain Tumor Segmentation of MRI Images Using Processed Image Driven U-Net Architecture](https://ijritcc.org/public/journals/1/submission_6951_6897_coverImage_en_US.png)
Automated Brain Tumor Detection from MRI Scans using Deep Convolutional Neural Networks
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