Studying ECG signals using nonlinear oscillators and genetic algorithm Studying ECG signals using nonlinear
Cardiovascular diseases are the leading cause of death and disability in the world, and thus, their detection is extremely important as early as possible so that it can be prognosed and managed appropriately. Hence, electrophysiological models dealing with cardiac conduction are critically important...
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| Published in | International journal of dynamics and control Vol. 13; no. 3 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer Berlin Heidelberg
01.03.2025
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2195-268X 2195-2698 |
| DOI | 10.1007/s40435-025-01610-z |
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| Abstract | Cardiovascular diseases are the leading cause of death and disability in the world, and thus, their detection is extremely important as early as possible so that it can be prognosed and managed appropriately. Hence, electrophysiological models dealing with cardiac conduction are critically important in the field of interdisciplinary sciences. The primary aim of this paper is to reproduce a normal sinus rhythm ECG (electrocardiogram) waveform which will act as the baseline for fitting and then fit any clinical ECG waveform that does not deviate much from normal sinus rhythm. To reproduce the ECG, we modeled the pacemaker complex using three coupled van der Pol oscillators with appropriate delays to generate the action potentials. These action potentials are responsible for the excitation of the non-pacemaker cells of the atria and ventricles whose electrical activity gets recorded as the ECG signal. The ECG signal is composed of a periodic set of individual waves corresponding to atrial and ventricular contraction and relaxation. These waves are modeled with the help of four FitzHugh–Nagumo (FHN) equations with impulses corresponding to the action potentials generated by the pacemaker cells. After the successful reproduction of a normal sinus rhythm ECG, we have developed a framework where we have used a genetic algorithm (GA) to fit a given clinical ECG data with parameters belonging to the above-mentioned system of delay differential equations. The GA framework has enabled us to fit ECG data representing different cardiac conditions reasonably well. We aim to use this work to get a better understanding of the cardiac conduction system and cardiovascular diseases which will help humanity in the future. |
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| AbstractList | Cardiovascular diseases are the leading cause of death and disability in the world, and thus, their detection is extremely important as early as possible so that it can be prognosed and managed appropriately. Hence, electrophysiological models dealing with cardiac conduction are critically important in the field of interdisciplinary sciences. The primary aim of this paper is to reproduce a normal sinus rhythm ECG (electrocardiogram) waveform which will act as the baseline for fitting and then fit any clinical ECG waveform that does not deviate much from normal sinus rhythm. To reproduce the ECG, we modeled the pacemaker complex using three coupled van der Pol oscillators with appropriate delays to generate the action potentials. These action potentials are responsible for the excitation of the non-pacemaker cells of the atria and ventricles whose electrical activity gets recorded as the ECG signal. The ECG signal is composed of a periodic set of individual waves corresponding to atrial and ventricular contraction and relaxation. These waves are modeled with the help of four FitzHugh–Nagumo (FHN) equations with impulses corresponding to the action potentials generated by the pacemaker cells. After the successful reproduction of a normal sinus rhythm ECG, we have developed a framework where we have used a genetic algorithm (GA) to fit a given clinical ECG data with parameters belonging to the above-mentioned system of delay differential equations. The GA framework has enabled us to fit ECG data representing different cardiac conditions reasonably well. We aim to use this work to get a better understanding of the cardiac conduction system and cardiovascular diseases which will help humanity in the future. |
| Author | Chowdhury, Sourav Chaudhuri, Indranath Ghosal, Apratim Roychowdhury, Suparna |
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| Copyright | The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature 2025 Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law. |
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| DOI | 10.1007/s40435-025-01610-z |
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| Snippet | Cardiovascular diseases are the leading cause of death and disability in the world, and thus, their detection is extremely important as early as possible so... |
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| SubjectTerms | Complexity Control Control and Systems Theory Dynamical Systems Engineering Vibration |
| Subtitle | Studying ECG signals using nonlinear |
| Title | Studying ECG signals using nonlinear oscillators and genetic algorithm |
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