GACNN SleepTuneNet: a genetic algorithm designing the convolutional neuralnetwork architecture for optimal classification ofsleep stages from a single EEG channel

Qureshi, Shahnawaz; Karrila, Seppo; Vanichayobon, Sirirut

doi:10.3906/elk-1903-186

Cited by 9 publications

(1 citation statement)

References 24 publications

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“…The earlier works [11,16,17,23] confirmed that the combination of DF and HF (DF+HF) will improve the performance of deep-learning system. In this work, the essential HF from the brain MRI slices are mined using the well known methods such as GLCM [3,10,29], Hu [3,10,30] and LBP [31,32]. The GLCM is widely adopted due to its superior performance and the essential GLCM parameters of the MRI slices are extracted from the segmented BT by VGG-UNet.…”

Section: Handcrafted-featuresmentioning

confidence: 99%

Convolutional-Neural-Network Assisted Segmentation and SVM Classification of Brain Tumor in Clinical MRI Slices

Rajinikanth

Kadry

Nam

2021

ITC

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Due to the increased disease occurrence rates in humans, the need for the Automated Disease Diagnosis (ADD) systems is also raised. Most of the ADD systems are proposed to support the doctor during the screening and decision making process. This research aims at developing a Computer Aided Disease Diagnosis (CADD) scheme to categorize the brain tumour of 2D MRI slices into Glioblastoma/Glioma class with better accuracy. The main contribution of this research work is to develop a CADD system with Convolutional-Neural-Network (CNN) supported segmentation and classification. The proposed CADD framework consist of the following phases; (i) Image collection and resizing, (ii) Automated tumour segmentation using VGG-UNet, (iv) Deep-feature extraction using VGG16 network, (v) Handcrafted feature extraction, (vi) Finest feature choice by firefly-algorithm, and (vii) Serial feature concatenation and binary classification. The merit of the executed CADD is confirmed using an investigation realized using the benchmark as well as clinically collected brain MRI slices. In this work, a binary classification with a 10-fold cross validation is implemented using well known classifiers and the results attained with the SVM-Cubic (accuracy >98%) is superior. This result confirms that the combination of CNN assisted segmentation and classification helps to achieve enhanced disease detection accuracy.

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