An Intelligent Model of Heuristic Improvement and Transformer-based Adaptive Deep Ensemble Networks with ASPP for Detecting Tuberculosis Disorder using Chest X-Ray Images

Atul Kathole, Savita Lonare (), Anuja Jadhav, Jayashree Katti () and Gulbakshee Dharmale ()
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Atul Kathole: Computer Engineering, Dr. D. Y. Patil Institute of Technology, Pimpri Colony, Pune, Maharashtra 411018, India
Savita Lonare: Computer Engineering, Dr. D. Y. Patil Institute of Technology, Pimpri Colony, Pune, Maharashtra 411018, India
Anuja Jadhav: ��Computer Science and amp
Jayashree Katti: ��IT Department, Pimpri Chinchwad College of Engineering, Nigdi, Maharashtra 411044, India
Gulbakshee Dharmale: ��IT Department, Pimpri Chinchwad College of Engineering, Nigdi, Maharashtra 411044, India

Journal of Information & Knowledge Management (JIKM), 2025, vol. 24, issue 04, 1-44

Abstract: A constant lung disease that occurs due to bacterial contamination is Tuberculosis (TB), and it leads to death when no proper treatment is offered to the individuals. So, highly accurate and efficient early discovery of TB is indispensable. Initial phases of Tb are diagnosed by Chest X-Ray (CXR) analysis. But, lung cancer and TB are intimate with each other, so it is more complicated for the radiologist to eliminate misdiagnosis. The CXR analysis technique is commonly used in clinics and hospitals because it is cost-efficient and easily accessed. Yet, the manual screening procedures of CXR images create large burdens for the radiologists, also providing high inter-observe variations. Hence, this paper frames to develop an efficient TB detection model using adaptive concepts of the deep learning approach. First, the source CXR images are fetched in the benchmark datasets. Subsequently, the raw images are fed to a newly developed model named Transformer-based Adaptive Deep Ensemble Networks with Atrous Spatial Pyramid Pooling (TADEN-ASPP). In this suggested network, the raw images are given to Residual Network (ResNet), Visual Geometry Group 16 (VGG16) and EfficientNet, where the three different features are acquired. Further, the resultant features are stacked with optimal features, which come under the stacked Optimal Feature pool by proposing the new algorithm Modified Generation Probability-based Equilibrium Optimiser (MGP-EO). Finally, the optimal features are subjected to the One-Dimensional Convolution Neural Network (1DCNN). Further attaining the optimum performance, the hyperparameters are tuned by MGP-EO. Finally, the efficacy of the system is evaluated using multiple performance measures. On the contrary, the extensive outcome reveals that the implemented system is timely and useful for diagnosing TB diseases.

Keywords: Tuberculosis disorder detection; modified generation probability-based equilibrium optimiser; transformer-based adaptive deep ensemble networks with atrous spatial pyramid pooling; residual network; one-dimensional convolution neural network; EfficientNet; Visual Geometry Group 16; chest X-ray (search for similar items in EconPapers)
Date: 2025
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DOI: 10.1142/S0219649225500273

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