Affiliation:
1. Department of Electrical and Computer Engineering, Tennessee Technological University, Cookeville, TN 38505, USA
Abstract
Contemporary methods used to interpret the electrocardiogram (ECG) signal for diagnosis or monitoring are based on expert knowledge and rule-centered algorithms. In recent years, with the advancement of artificial intelligence, more and more researchers are using deep learning (ML) and deep learning (DL) with ECG data to detect different types of cardiac issues as well as other health problems such as respiration rate, sleep apnea, and blood pressure, etc. This study presents an extensive literature review based on research performed in the last few years where ML and DL have been applied with ECG data for many diagnoses. However, the review found that, in published work, the results showed promise. However, some significant limitations kept that technique from implementation in reality and being used for medical decisions; examples of such limitations are imbalanced and the absence of standardized dataset for evaluation, lack of interpretability of the model, inconsistency of performance while using a new dataset, security, and privacy of health data and lack of collaboration with physicians, etc. AI using ECG data accompanied by modern wearable biosensor technologies has the potential to allow for health monitoring and early diagnosis within reach of larger populations. However, researchers should focus on resolving the limitations.
Subject
Artificial Intelligence,Applied Mathematics,Industrial and Manufacturing Engineering,Human-Computer Interaction,Information Systems,Control and Systems Engineering
Reference138 articles.
1. Effectiveness of the heartbeat interval error and compensation method on heart rate variability analysis;Shintomi;Healthc. Technol. Lett.,2022
2. El-Baz, A., Giridharan, G.A., Shalaby, A., Mahmoud, A.H., and Ghazal, M. (2022). Special Issue “Computer Aided Diagnosis Sensors”. Sensors, 22.
3. Computer-Aided Decision Support System for Diagnosis of Heart Diseases;Simegn;Res. Rep. Clin. Cardiol.,2022
4. Marques, J.A.L., Gois, F.N.B., Madeiro, J.P.D.V., Li, T., and Fong, S.J. (2022). Cognitive and Soft Computing Techniques for the Analysis of Healthcare Data, Academic Press.
5. He, Y., Ren, K., and Shan, S. (2022, January 23–25). Design of Microcontroller-Based Heart Rate and Temperature Detection System. Proceedings of the 2022 IEEE 5th International Conference on Information Systems and Computer Aided Education (ICISCAE), Dalian, China.
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