Author: Selvaraj, Deepika; Venkatesan, Arunachalam; Mahesh, Vijayalakshmi G. V.; Joseph Raj, Alex Noel
Title: An integrated feature frame work for automated segmentation of COVIDâ€19 infection from lung CT images Cord-id: 7xhbgd31 Document date: 2020_11_23
ID: 7xhbgd31
Snippet: The novel coronavirus disease (SARSâ€CoVâ€2 or COVIDâ€19) is spreading across the world and is affecting public health and the world economy. Artificial Intelligence (AI) can play a key role in enhancing COVIDâ€19 detection. However, lung infection by COVIDâ€19 is not quantifiable due to a lack of studies and the difficulty involved in the collection of large datasets. Segmentation is a preferred technique to quantify and contour the COVIDâ€19 region on the lungs using computed tomography
Document: The novel coronavirus disease (SARSâ€CoVâ€2 or COVIDâ€19) is spreading across the world and is affecting public health and the world economy. Artificial Intelligence (AI) can play a key role in enhancing COVIDâ€19 detection. However, lung infection by COVIDâ€19 is not quantifiable due to a lack of studies and the difficulty involved in the collection of large datasets. Segmentation is a preferred technique to quantify and contour the COVIDâ€19 region on the lungs using computed tomography (CT) scan images. To address the dataset problem, we propose a deep neural network (DNN) model trained on a limited dataset where features are selected using a regionâ€specific approach. Specifically, we apply the Zernike moment (ZM) and gray level coâ€occurrence matrix (GLCM) to extract the unique shape and texture features. The feature vectors computed from these techniques enable segmentation that illustrates the severity of the COVIDâ€19 infection. The proposed algorithm was compared with other existing stateâ€ofâ€theâ€art deep neural networks using the Radiopedia and COVIDâ€19 CT Segmentation datasets presented specificity, sensitivity, sensitivity, mean absolute error (MAE), enhanceâ€alignment measure (EM(φ)), and structure measure (S (m)) of 0.942, 0.701, 0.082, 0.867, and 0.783, respectively. The metrics demonstrate the performance of the model in quantifying the COVIDâ€19 infection with limited datasets.
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