A Novel Framework for Brain Tumor Detection Based on Convolutional
Variational Generative Models
- URL: http://arxiv.org/abs/2202.09850v1
- Date: Sun, 20 Feb 2022 16:14:01 GMT
- Title: A Novel Framework for Brain Tumor Detection Based on Convolutional
Variational Generative Models
- Authors: Wessam M. Salama and Ahmed Shokry
- Abstract summary: This paper introduces a novel framework for brain tumor detection and classification.
The proposed framework acquires an overall detection accuracy of 96.88%.
It highlights the promise of the proposed framework as an accurate low-overhead brain tumor detection system.
- Score: 6.726255259929498
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Brain tumor detection can make the difference between life and death.
Recently, deep learning-based brain tumor detection techniques have gained
attention due to their higher performance. However, obtaining the expected
performance of such deep learning-based systems requires large amounts of
classified images to train the deep models. Obtaining such data is usually
boring, time-consuming, and can easily be exposed to human mistakes which
hinder the utilization of such deep learning approaches. This paper introduces
a novel framework for brain tumor detection and classification. The basic idea
is to generate a large synthetic MRI images dataset that reflects the typical
pattern of the brain MRI images from a small class-unbalanced collected
dataset. The resulted dataset is then used for training a deep model for
detection and classification. Specifically, we employ two types of deep models.
The first model is a generative model to capture the distribution of the
important features in a set of small class-unbalanced brain MRI images. Then by
using this distribution, the generative model can synthesize any number of
brain MRI images for each class. Hence, the system can automatically convert a
small unbalanced dataset to a larger balanced one. The second model is the
classifier that is trained using the large balanced dataset to detect brain
tumors in MRI images. The proposed framework acquires an overall detection
accuracy of 96.88% which highlights the promise of the proposed framework as an
accurate low-overhead brain tumor detection system.
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