AI Article Synopsis
- The World Health Organization ranks Tuberculosis (TB) as one of the top 10 causes of death, emphasizing the need for early diagnosis to improve treatment outcomes.
- An automated scheme for detecting TB in chest X-rays using Deep Learning is proposed, involving several stages: image collection and pre-processing, feature extraction using VGG16 and VGG19 models, optimal feature selection via the Mayfly algorithm, serial feature concatenation, and binary classification.
- The study's results demonstrate that the dual-deep-feature approach achieves a high classification accuracy of 97.8% when tested with a K Nearest-Neighbor classifier.
Article Abstract
World-Health-Organization (WHO) has listed Tuberculosis (TB) as one among the top 10 reasons for death and an early diagnosis will help to cure the patient by giving suitable treatment. TB usually affects the lungs and an accurate bio-imaging scheme will be apt to diagnose the infection. This research aims to implement an automated scheme to detect TB infection in chest radiographs (X-ray) using a chosen Deep-Learning (DL) approach. The primary objective of the proposed scheme is to attain better classification accuracy while detecting TB in X-ray images. The proposed scheme consists of the following phases namely, (1) image collection and pre-processing, (2) feature extraction with pre-trained VGG16 and VGG19, (3) Mayfly-algorithm (MA) based optimal feature selection, (4) serial feature concatenation and (5) binary classification with a 5-fold cross validation. In this work, the performance of the proposed DL scheme is separately validated for (1) VGG16 with conventional features, (2) VGG19 with conventional features, (3) VGG16 with optimal features, (4) VGG19 with optimal features and (5) concatenated dual-deep-features (DDF). All experimental investigations are conducted and achieved using MATLAB® program. Experimental outcome confirms that the proposed system with DDF yields a classification accuracy of 97.8%using a K Nearest-Neighbor (KNN) classifier.
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| http://dx.doi.org/10.3233/XST-210976 | DOI Listing |
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