Smartphone-based respiratory rate estimation using photoplethysmographic imaging and discrete wavelet transform

Respiratory rate is a key vital sign that needs daily monitoring for hospital patients in general and those with respiratory conditions in particular. Moreover, it is a predictor of major heart conditions. Yet, studies have shown that it is widely neglected in hospital care due partially to the disc...

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Published in	Journal of ambient intelligence and humanized computing Vol. 11; no. 2; pp. 693 - 703
Main Authors	Alafeef, Maha, Fraiwan, Mohammad
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.02.2020 Springer Nature B.V
Subjects	Accuracy Algorithms Artificial Intelligence Cellular telephones Computational Intelligence Data collection Discrete Wavelet Transform Engineering Errors Hospitals Medical equipment Medical research Original Research Pulse oximetry Respiration Respiratory rate Robotics and Automation Sensors Signal processing Smartphones Telemedicine User Interfaces and Human Computer Interaction Wavelet transforms Respiratory rate Discrete wavelet transform Smartphone Photoplethysmographic
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Abstract	Respiratory rate is a key vital sign that needs daily monitoring for hospital patients in general and those with respiratory conditions in particular. Moreover, it is a predictor of major heart conditions. Yet, studies have shown that it is widely neglected in hospital care due partially to the discomfort caused by the required equipment. In this paper, we propose a smartphone-based method for accurate measurement of the respiratory rate using the video of the skin surface as recorded by the smartphone built-in camera in the presence of the flash light. From this input, we use frame averaging to extract a photoplethysmographic signal of the red, green, and blue channels. Next, we apply discrete wavelet transform on the best representative photoplethysmographic signal for respiratory signal extraction and estimate the rate. Fifteen subjects participated in the testing and evaluation. The maximum absolute error was 0.67 breaths/min, whereas the root mean square error was 0.366 breaths/min. The average percentage error and average percentage accuracy using our approach were 2.2%, 97.8% respectively. A comparison with other works in the literature reveal a superior performance in terms of accuracy, ease of use, and cost.
AbstractList	Respiratory rate is a key vital sign that needs daily monitoring for hospital patients in general and those with respiratory conditions in particular. Moreover, it is a predictor of major heart conditions. Yet, studies have shown that it is widely neglected in hospital care due partially to the discomfort caused by the required equipment. In this paper, we propose a smartphone-based method for accurate measurement of the respiratory rate using the video of the skin surface as recorded by the smartphone built-in camera in the presence of the flash light. From this input, we use frame averaging to extract a photoplethysmographic signal of the red, green, and blue channels. Next, we apply discrete wavelet transform on the best representative photoplethysmographic signal for respiratory signal extraction and estimate the rate. Fifteen subjects participated in the testing and evaluation. The maximum absolute error was 0.67 breaths/min, whereas the root mean square error was 0.366 breaths/min. The average percentage error and average percentage accuracy using our approach were 2.2%, 97.8% respectively. A comparison with other works in the literature reveal a superior performance in terms of accuracy, ease of use, and cost.
Author	Alafeef, Maha Fraiwan, Mohammad
Author_xml	– sequence: 1 givenname: Maha surname: Alafeef fullname: Alafeef, Maha organization: Department of Bioengineering, University of Illinois Urbana-Champaign, Department of Biomedical Engineering, Jordan University of Science and Technology – sequence: 2 givenname: Mohammad orcidid: 0000-0001-6352-5275 surname: Fraiwan fullname: Fraiwan, Mohammad email: mafraiwan@just.edu.jo organization: Department of Computer Engineering, Jordan University of Science and Technology
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SubjectTerms	Accuracy Algorithms Artificial Intelligence Cellular telephones Computational Intelligence Data collection Discrete Wavelet Transform Engineering Errors Hospitals Medical equipment Medical research Original Research Pulse oximetry Respiration Respiratory rate Robotics and Automation Sensors Signal processing Smartphones Telemedicine User Interfaces and Human Computer Interaction Wavelet transforms
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Title	Smartphone-based respiratory rate estimation using photoplethysmographic imaging and discrete wavelet transform
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