Applied machine learning for blood pressure estimation using a small, real-world electrocardiogram and photoplethysmogram dataset
Applying machine learning techniques to electrocardiography and photoplethysmography signals and their multivariate-derived waveforms is an ongoing effort to estimate non-occlusive blood pressure. Unfortunately, real ambulatory electrocardiography and photoplethysmography waveforms are inevitably af...
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sg-ntu-dr.10356-1685472023-06-09T15:40:35Z Applied machine learning for blood pressure estimation using a small, real-world electrocardiogram and photoplethysmogram dataset Wong, Mark Kei Fong Hei, Hao Lim, Si Zhou Ng, Eddie Yin Kwee School of Mechanical and Aerospace Engineering School of Electrical and Electronic Engineering Engineering::Mechanical engineering Non-Occluding Blood Pressure Noisy Data Applying machine learning techniques to electrocardiography and photoplethysmography signals and their multivariate-derived waveforms is an ongoing effort to estimate non-occlusive blood pressure. Unfortunately, real ambulatory electrocardiography and photoplethysmography waveforms are inevitably affected by motion and noise artifacts, so established machine learning architectures perform poorly when trained on data of the Multiparameter Intelligent Monitoring in Intensive Care II type, a publicly available ICU database. Our study addresses this problem by applying four well-established machine learning methods, i.e., random forest regression, support vector regression, Adaboost regression and artificial neural networks, to a small, self-sampled electrocardiography-photoplethysmography dataset (n = 54) to improve the robustness of machine learning to real-world BP estimates. We evaluated the performance using a selection of optimal feature morphologies of waveforms by using pulse arrival time, morphological and frequency photoplethysmography parameters and heart rate variability as characterization data. On the basis of the root mean square error and mean absolute error, our study showed that support vector regression gave the best performance for blood pressure estimation from noisy data, achieving an mean absolute error of 6.97 mmHg, which meets the level C criteria set by the British Hypertension Society. We demonstrate that ambulatory electrocardiography- photoplethysmography signals acquired by mobile discrete devices can be used to estimate blood pressure. Published version This work was funded by the Singapore Health Technologies Consortium (HealthTEC) (Grant No: HealthTec 2/2020-6). 2023-06-05T06:17:30Z 2023-06-05T06:17:30Z 2023 Journal Article Wong, M. K. F., Hei, H., Lim, S. Z. & Ng, E. Y. K. (2023). Applied machine learning for blood pressure estimation using a small, real-world electrocardiogram and photoplethysmogram dataset. Mathematical Biosciences and Engineering, 20(1), 975-997. https://dx.doi.org/10.3934/mbe.2023045 1547-1063 https://hdl.handle.net/10356/168547 10.3934/mbe.2023045 36650798 2-s2.0-85140888512 1 20 975 997 en HealthTec 2/2020-6 Mathematical Biosciences and Engineering © 2023 the Author(s), licensee AIMS Press. This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0). application/pdf |
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Engineering::Mechanical engineering Non-Occluding Blood Pressure Noisy Data Wong, Mark Kei Fong Hei, Hao Lim, Si Zhou Ng, Eddie Yin Kwee Applied machine learning for blood pressure estimation using a small, real-world electrocardiogram and photoplethysmogram dataset |
| description |
Applying machine learning techniques to electrocardiography and photoplethysmography signals and their multivariate-derived waveforms is an ongoing effort to estimate non-occlusive blood pressure. Unfortunately, real ambulatory electrocardiography and photoplethysmography waveforms are inevitably affected by motion and noise artifacts, so established machine learning architectures perform poorly when trained on data of the Multiparameter Intelligent Monitoring in Intensive Care II type, a publicly available ICU database. Our study addresses this problem by applying four well-established machine learning methods, i.e., random forest regression, support vector regression, Adaboost regression and artificial neural networks, to a small, self-sampled electrocardiography-photoplethysmography dataset (n = 54) to improve the robustness of machine learning to real-world BP estimates. We evaluated the performance using a selection of optimal feature morphologies of waveforms by using pulse arrival time, morphological and frequency photoplethysmography parameters and heart rate variability as characterization data. On the basis of the root mean square error and mean absolute error, our study showed that support vector regression gave the best performance for blood pressure estimation from noisy data, achieving an mean absolute error of 6.97 mmHg, which meets the level C criteria set by the British Hypertension Society. We demonstrate that ambulatory electrocardiography- photoplethysmography signals acquired by mobile discrete devices can be used to estimate blood pressure. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Wong, Mark Kei Fong Hei, Hao Lim, Si Zhou Ng, Eddie Yin Kwee |
| format |
Article |
| author |
Wong, Mark Kei Fong Hei, Hao Lim, Si Zhou Ng, Eddie Yin Kwee |
| author_sort |
Wong, Mark Kei Fong |
| title |
Applied machine learning for blood pressure estimation using a small, real-world electrocardiogram and photoplethysmogram dataset |
| title_short |
Applied machine learning for blood pressure estimation using a small, real-world electrocardiogram and photoplethysmogram dataset |
| title_full |
Applied machine learning for blood pressure estimation using a small, real-world electrocardiogram and photoplethysmogram dataset |
| title_fullStr |
Applied machine learning for blood pressure estimation using a small, real-world electrocardiogram and photoplethysmogram dataset |
| title_full_unstemmed |
Applied machine learning for blood pressure estimation using a small, real-world electrocardiogram and photoplethysmogram dataset |
| title_sort |
applied machine learning for blood pressure estimation using a small, real-world electrocardiogram and photoplethysmogram dataset |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/168547 |
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1772828454689964032 |