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Photoplethysmogram modeling during paroxysmal atrial fibrillation: detector evaluation
A phenomenological model for simulating photoplethys-mogram (PPG) during paroxysmal atrial fibrillation (AF) is proposed. A PPG pulse is modeled by combining a log-normal and two Gaussian waveforms. Continuous PPG signals are produced by placing and connecting individual pulses according to the RR interval pattern extracted from annotated ECG signals. This paper presents a practical application of the proposed model for studying the performance of an RR-based AF detector Physionet databases containing AF episodes serve as a basis for modeling PPG signals. Detection performance was tested for different signal-to-noise ratios (SNRs), ranging from 0 to 30 dB. The results show that an SNR of at least 15 dB is required to ensure adequate performance. Considering the lack of annotated, public PPG databases with arrhythmias, the modeling of realistic PPGs based on annotated ECG signals should facilitate the development and testing of PPG-based detectors.
Photoplethysmogram modeling during paroxysmal atrial fibrillation: detector evaluation
A phenomenological model for simulating photoplethys-mogram (PPG) during paroxysmal atrial fibrillation (AF) is proposed. A PPG pulse is modeled by combining a log-normal and two Gaussian waveforms. Continuous PPG signals are produced by placing and connecting individual pulses according to the RR interval pattern extracted from annotated ECG signals. This paper presents a practical application of the proposed model for studying the performance of an RR-based AF detector Physionet databases containing AF episodes serve as a basis for modeling PPG signals. Detection performance was tested for different signal-to-noise ratios (SNRs), ranging from 0 to 30 dB. The results show that an SNR of at least 15 dB is required to ensure adequate performance. Considering the lack of annotated, public PPG databases with arrhythmias, the modeling of realistic PPGs based on annotated ECG signals should facilitate the development and testing of PPG-based detectors.
Photoplethysmogram modeling during paroxysmal atrial fibrillation: detector evaluation
Sološenko, Andrius (author) / Petrėnas, Andrius (author) / Marozas, Vaidotas (author) / Sörnmo, L (author)
2017-01-01
Computing in cardiology (CinC): September 24-27, 2017, Rennes, France, Piscataway, NJ : IEEE, 2017, vol. 44, p. 1-4 ; ISBN 9781538645550 ; eISSN 2325-887X ; eISBN 9781538666302
Article (Journal)
Electronic Resource
English
DDC:
690
Photoplethysmogram modeling during paroxysmal atrial fibrillation: detector evaluation
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