Deep Transfer Learning for Chronic Obstructive Pulmonary Disease Detection Utilizing Electrocardiogram Signals

The primary objective and contribution of this research is the development and design of an artificial intelligence system that will diagnose Chronic Obstructive Pulmonary Disease (COPD) utilizing only the heart signal (ECG) of the patient. In contrast to the traditional way of diagnosing COPD, whic...

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Veröffentlicht in:IEEE access 2023-01, Vol.11, p.1-1
Hauptverfasser: Moran, Inanc, Turgay Altilar, D., Kursad Ucar, M., Bilgin, Cahit, Recep Bozkurt, M.
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Sprache:eng
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Zusammenfassung:The primary objective and contribution of this research is the development and design of an artificial intelligence system that will diagnose Chronic Obstructive Pulmonary Disease (COPD) utilizing only the heart signal (ECG) of the patient. In contrast to the traditional way of diagnosing COPD, which requires spirometer tests and a laborious workup in a hospital setting, the proposed system uses the classification capabilities of deep transfer learning and the patient's heart signal, which provides COPD signs in itself and can be received from any modern smart device. The motivation of this research is that it introduces the first research on automated COPD diagnosis using deep learning and utilizes the first annotated dataset in this field. Since the disease progresses slowly and conceals itself until the final stage, hospital visits for diagnosis are uncommon. Hence, the medical goal of this research is to detect COPD using a simple heart signal before it becomes incurable. Deep transfer learning frameworks, which were previously trained on a general image data set, are transferred to carry out an automatic diagnosis of COPD by classifying patients' electrocardiogram (ECG) signal equivalents, which are produced by signal-to-image transform techniques. Xception, VGG-19, InceptionResNetV2, DenseNet-121, and "trained-from-scratch" convolutional neural network architectures have been investigated for the detection of COPD, and it is demonstrated that they are able to obtain high performance rates in classifying nearly 33.000 instances using diverse training strategies. The highest classification rate was obtained by the Xception model at 99%. This research shows that the newly introduced COPD detection approach is effective, easily applicable, and eliminates the burden of considerable effort in a hospital. It could also be put into practice and serve as a diagnostic aid for chest disease experts by providing a deeper and faster interpretation of ECG signals. Using the knowledge gained while identifying COPD from ECG signals may aid in the early diagnosis of future diseases for which little data is currently available.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2023.3269397