Analysis and Classification of H&amp;E-Stained Oral Cavity Tumour Gradings Using Convolution Neural Network

Mathialagan, Prabhakaran

doi:10.22266/ijies2021.1031.45

Cited by 2 publications

(1 citation statement)

References 32 publications

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“…CT scans are therefore applied for the categorization and prognosis of ovarian carcinomas in current medications. Practically, CNN is widely known for the categorization and prognosis of various kinds of diseases with the help of CT scans including the nervous system, lung, epidermis, and so on [12][13][14]. On the other hand, there is no appropriate classification framework to detect and treat ovarian carcinoma from CT scans.…”

Section: Introductionmentioning

confidence: 99%

An Improved DCNN Classification based on a Modified U-Net Segmentation Approach for Ovarian Cancer

2022

IJIES

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In clinical diagnosis, an effective classification of ovarian carcinoma types is highly essential to avoid the number of deaths worldwide. For this reason, deep convolutional neural network (DCNN) has been designed to classify ovarian carcinoma previously. Then, insufficiency of a dataset was handled by augmenting the training samples using deep semi-supervised generative learning (DSSGL). But, these augmented images directly fed to the DCNN without segmentation causes improper classification of ovarian carcinoma in a significant regions. Also, its computation burden is high. Hence in this article, an enhanced U-Net (EUNet) is proposed as a segmentation module with the DSSGL-DCNN framework for enhancing the accuracy of classifying ovarian carcinoma. This EUNet comprises different units: the inception-residual (IR) unit, the dense-inception (DI) unit, the downsampling unit and the upsampling unit to create the feature-level segmented maps for a given CT scan. But, raising the expansion ratio in the DI unit will provide several variables which make the framework more complex and slower to train. So, the feature-level probability map is also generated which is thresholded to binary and fused with the feature-level segmented maps to create the discriminative segmented sample. In ovarian carcinoma classification, the training CT images are first augmented by the DSSGL method and given to the EUNet. The resultant segmented images from EUNet are fed to the fused structure-based DCNN for categorizing the types of ovarian carcinomas effectively. Finally, the testing outcomes reveal that the DSSGL-EUNet-DCNN attains 91.63 % of accuracy for ovarian carcinoma categorization, whereas existing MLR,

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Section: Introductionmentioning

confidence: 99%

An Improved DCNN Classification based on a Modified U-Net Segmentation Approach for Ovarian Cancer

2022

IJIES

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RETRACTED ARTICLE: Stochastic gradient descent-based convolutional neural network to detect and classify oral cavity cancer

Prabhakaran

Mohana

2023

Soft Comput

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Analysis and Classification of H&E-Stained Oral Cavity Tumour Gradings Using Convolution Neural Network

Cited by 2 publications

References 32 publications

An Improved DCNN Classification based on a Modified U-Net Segmentation Approach for Ovarian Cancer

An Improved DCNN Classification based on a Modified U-Net Segmentation Approach for Ovarian Cancer

RETRACTED ARTICLE: Stochastic gradient descent-based convolutional neural network to detect and classify oral cavity cancer

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