Classification of malignant and benign lung nodule and prediction of image label class using multi-deep model
Article
Article Title | Classification of malignant and benign lung nodule and prediction of image label class using multi-deep model |
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ERA Journal ID | 210614 |
Article Category | Article |
Authors | Zia, Muahammad Bilal (Author), Zhao, Juan Juan (Author), Zhou, Xujuan (Author), Xiao, Ning (Author), Wang, Jiawen (Author) and Khan, Ammad (Author) |
Journal Title | International Journal of Advanced Computer Science and Applications |
Journal Citation | 11 (3), pp. 35-41 |
Number of Pages | 7 |
Year | 2020 |
Place of Publication | Bradford, United Kingdom |
ISSN | 2156-5570 |
2158-107X | |
Web Address (URL) | https://thesai.org/Downloads/Volume11No3/Paper_5-Classification_of_Malignant_and_Benign_Lung_Nodule.pdf |
Abstract | Lung cancer has been listed as one of the world’s leading causes of death. Early diagnosis of lung nodules has great significance for the prevention of lung cancer. Despite major improvements in modern diagnosis and treatment, the five-year survival rate is only 18%. Before diagnosis, the classification of lung nodules is one important step, in particular, because automatic classification may help doctors with a valuable opinion. Although deep learning has shown improvement in the image classifications over traditional approaches, which focus on handcraft features, due to a large number of intra-class variational images and the inter-class similar images due to various imaging modalities, it remains challenging to classify lung nodule. In this paper, a multi-deep model (MD model) is proposed for lung nodule classification as well as to predict the image label class. This model is based on three phases that include multi-scale dilated convolutional blocks (MsDc), dual deep convolutional neural networks (DCNN A/B), and multi-task learning component (MTLc). Initially, the multi-scale features are derived through the MsDc process by using different dilated rates to enlarge the respective area. This technique is applied to a pair of images. Such images are accepted by dual DCNNs, and both models can learn mutually from each other in order to enhance the model accuracy. To further improve the performance of the proposed model, the output from both DCNNs split into two portions. The multi-task learning part is used to evaluate whether the input image pair is in the same group or not and also helps to classify them between benign and malignant. Furthermore, it can provide positive guidance if there is an error. Both the intra-class and inter-class (variation and similarity) of a dataset itself increase the efficiency of single DCNN. The effectiveness of mentioned technique is tested empirically by using the popular Lung Image Consortium Database (LIDC) dataset. The results show that the strategy is highly efficient in the form of sensitivity of 90.67%, specificity 90.80%, and accuracy of 90.73%. |
Keywords | lung nodule classification; dilated blocks; dual DCNNs; multi-task learning; multi-deep model |
ANZSRC Field of Research 2020 | 469999. Other information and computing sciences not elsewhere classified |
Byline Affiliations | Taiyuan University of Technology, China |
School of Management and Enterprise | |
Institution of Origin | University of Southern Queensland |
https://research.usq.edu.au/item/q5x57/classification-of-malignant-and-benign-lung-nodule-and-prediction-of-image-label-class-using-multi-deep-model
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Paper_5-Classification_of_Malignant_and_Benign_Lung_Nodule.pdf | ||
License: CC BY 4.0 | ||
File access level: Anyone |
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