THE DEVELOPMENT OF A SYNTHETIC DATASET USING DEEP GENERATIVE MODEL TO IMPROVE THE PERFORMANCE OF DEEP LEARNING-BASED BRAIN TUMOR MRI IMAGE CLASSIFICATION
Medical Image Classification based on a deep learning model shows excellent results. However, the medical image still lacks several public datasets, including brain tumors. Another problem is that this dataset suffers from an imbalanced class dataset problem. To overcome this problem, we can incr...
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id-itb.:865602024-11-15T09:51:07ZTHE DEVELOPMENT OF A SYNTHETIC DATASET USING DEEP GENERATIVE MODEL TO IMPROVE THE PERFORMANCE OF DEEP LEARNING-BASED BRAIN TUMOR MRI IMAGE CLASSIFICATION Fajriati MS. Musa, Angky Indonesia Theses generative model, deep learning, synthetic data, MRI data, brain tumor. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/86560 Medical Image Classification based on a deep learning model shows excellent results. However, the medical image still lacks several public datasets, including brain tumors. Another problem is that this dataset suffers from an imbalanced class dataset problem. To overcome this problem, we can increase the number of datasets using machine learning. So, our study was conducted to develop a synthetic dataset to increase the number of training sets with synthetic data while training the classification model based on deep learning models. This research uses an MRI tumor dataset with a total of 3064 images consisting of three tumors. We chose the GAN model to produce synthetic data. We developed nine GAN models with different tumors and modalities. Our goal is for GAN to focus on learning one tumor with each imaging plane. We evaluated the result of synthetic data from the GAN model quantitatively and qualitatively. The result shows that modified architecture for the discriminator and generator using a Residual Network produces a synthetic dataset that captures tumors, one of its important features, better than a Deep Convolutional Network. Then, to escalate the training process on our GAN model, we added the gradient-penalty method. The result of adding a gradient penalty is to minimize the corrupted feature on the synthetic dataset. However, the drawback is that the synthetic dataset has a higher FID score and lower inception score. The next process is to add synthetic data to train the set on the deep learning classification model. Best result of synthetic data produced by the ResWGAN-GP model, with InceptionV3, the improvement of the accuracy model from 95% to 96%, with DenseNet121 from 96% to 97%, and with MobileNetV2 from 92% to 93%. The accuracy improvement because the model with additional synthetic data predicts better meningioma and glioma class. text |
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Medical Image Classification based on a deep learning model shows excellent
results. However, the medical image still lacks several public datasets, including
brain tumors. Another problem is that this dataset suffers from an imbalanced class
dataset problem. To overcome this problem, we can increase the number of datasets
using machine learning. So, our study was conducted to develop a synthetic dataset
to increase the number of training sets with synthetic data while training the
classification model based on deep learning models. This research uses an MRI
tumor dataset with a total of 3064 images consisting of three tumors. We chose the
GAN model to produce synthetic data. We developed nine GAN models with
different tumors and modalities. Our goal is for GAN to focus on learning one tumor
with each imaging plane. We evaluated the result of synthetic data from the GAN
model quantitatively and qualitatively.
The result shows that modified architecture for the discriminator and generator
using a Residual Network produces a synthetic dataset that captures tumors, one of
its important features, better than a Deep Convolutional Network. Then, to escalate
the training process on our GAN model, we added the gradient-penalty method.
The result of adding a gradient penalty is to minimize the corrupted feature on the
synthetic dataset. However, the drawback is that the synthetic dataset has a higher
FID score and lower inception score. The next process is to add synthetic data to
train the set on the deep learning classification model. Best result of synthetic data
produced by the ResWGAN-GP model, with InceptionV3, the improvement of the
accuracy model from 95% to 96%, with DenseNet121 from 96% to 97%, and with
MobileNetV2 from 92% to 93%. The accuracy improvement because the model with
additional synthetic data predicts better meningioma and glioma class. |
| format |
Theses |
| author |
Fajriati MS. Musa, Angky |
| spellingShingle |
Fajriati MS. Musa, Angky THE DEVELOPMENT OF A SYNTHETIC DATASET USING DEEP GENERATIVE MODEL TO IMPROVE THE PERFORMANCE OF DEEP LEARNING-BASED BRAIN TUMOR MRI IMAGE CLASSIFICATION |
| author_facet |
Fajriati MS. Musa, Angky |
| author_sort |
Fajriati MS. Musa, Angky |
| title |
THE DEVELOPMENT OF A SYNTHETIC DATASET USING DEEP GENERATIVE MODEL TO IMPROVE THE PERFORMANCE OF DEEP LEARNING-BASED BRAIN TUMOR MRI IMAGE CLASSIFICATION |
| title_short |
THE DEVELOPMENT OF A SYNTHETIC DATASET USING DEEP GENERATIVE MODEL TO IMPROVE THE PERFORMANCE OF DEEP LEARNING-BASED BRAIN TUMOR MRI IMAGE CLASSIFICATION |
| title_full |
THE DEVELOPMENT OF A SYNTHETIC DATASET USING DEEP GENERATIVE MODEL TO IMPROVE THE PERFORMANCE OF DEEP LEARNING-BASED BRAIN TUMOR MRI IMAGE CLASSIFICATION |
| title_fullStr |
THE DEVELOPMENT OF A SYNTHETIC DATASET USING DEEP GENERATIVE MODEL TO IMPROVE THE PERFORMANCE OF DEEP LEARNING-BASED BRAIN TUMOR MRI IMAGE CLASSIFICATION |
| title_full_unstemmed |
THE DEVELOPMENT OF A SYNTHETIC DATASET USING DEEP GENERATIVE MODEL TO IMPROVE THE PERFORMANCE OF DEEP LEARNING-BASED BRAIN TUMOR MRI IMAGE CLASSIFICATION |
| title_sort |
development of a synthetic dataset using deep generative model to improve the performance of deep learning-based brain tumor mri image classification |
| url |
https://digilib.itb.ac.id/gdl/view/86560 |
| _version_ |
1822283449298321408 |