Confidence-Calibrated Clinical Decision Support System for Reliable Respiratory Disease Screening
With the growing adoption of computer-aided diagnostic and treatment recommendation systems in healthcare, it is essential to ensure both the accuracy and reliability of AI-enabled clinical decision support systems. In this study, we comprehensively examine existing model confidence calibration meth...
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| Published in | IEEE-EMBS International Conference on Biomedical and Health Informatics (BHI ...) (Online) pp. 1 - 8 |
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| Main Authors | , , , , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
10.11.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2641-3604 |
| DOI | 10.1109/BHI62660.2024.10913797 |
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| Abstract | With the growing adoption of computer-aided diagnostic and treatment recommendation systems in healthcare, it is essential to ensure both the accuracy and reliability of AI-enabled clinical decision support systems. In this study, we comprehensively examine existing model confidence calibration methods and propose an ensemble-based calibration approach for reliable predictions in clinical decision support systems (CDSSs). Specifically, we introduce an ENsemble-based Confidence-caLibrated deep neural network, ENCL-DNN, to improve respiratory disease screening using cough sounds. We also leverage local interpretable model-agnostic explanations to monitor the behavior of the CDSS, identifying the key features that contribute to its predictions and ensuring transparency in the diagnosis. By employing the ensemble-based calibration method, ENCL-DNN demonstrates superior performance on two publicly available respiratory audio datasets, Coswara and Cambridge, as evidenced by a 50% and a 28.74% reduction in Expected Calibration Error (ECE), respectively, compared to the uncalibrated baselines. Our experiments highlight the significance of well-calibrated deep neural networks in respiratory disease screening and the enhancement of reliability in mobile healthcare systems. By providing reliable and transparent predictions, ENCL-DNN has the potential to promote the wide adoption of AI-driven CDSSs and thereby improve patient outcomes through early diagnosis and intervention. |
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| AbstractList | With the growing adoption of computer-aided diagnostic and treatment recommendation systems in healthcare, it is essential to ensure both the accuracy and reliability of AI-enabled clinical decision support systems. In this study, we comprehensively examine existing model confidence calibration methods and propose an ensemble-based calibration approach for reliable predictions in clinical decision support systems (CDSSs). Specifically, we introduce an ENsemble-based Confidence-caLibrated deep neural network, ENCL-DNN, to improve respiratory disease screening using cough sounds. We also leverage local interpretable model-agnostic explanations to monitor the behavior of the CDSS, identifying the key features that contribute to its predictions and ensuring transparency in the diagnosis. By employing the ensemble-based calibration method, ENCL-DNN demonstrates superior performance on two publicly available respiratory audio datasets, Coswara and Cambridge, as evidenced by a 50% and a 28.74% reduction in Expected Calibration Error (ECE), respectively, compared to the uncalibrated baselines. Our experiments highlight the significance of well-calibrated deep neural networks in respiratory disease screening and the enhancement of reliability in mobile healthcare systems. By providing reliable and transparent predictions, ENCL-DNN has the potential to promote the wide adoption of AI-driven CDSSs and thereby improve patient outcomes through early diagnosis and intervention. |
| Author | Wang, May D. Nnamdi, Micky C. Chundru, Vivek Marteau, Benoit Tamo, J. Ben Shi, Wenqi Patil, Oankar |
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| SubjectTerms | Accuracy Artificial neural networks audio signal analysis Calibration clinical decision support Computer network reliability confidence calibration Decision support systems Medical services Predictive models Pulmonary diseases Reliability respiratory disease Uncertainty |
| Title | Confidence-Calibrated Clinical Decision Support System for Reliable Respiratory Disease Screening |
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