Non-contact, synchronous dynamic measurement of respiratory rate and heart rate based on dual sensitive regions

Wei, Bing; He, Xuan; Zhang, Chao; Wu, Xiaopei

doi:10.1186/s12938-016-0300-0

Cited by 41 publications

(26 citation statements)

References 32 publications

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“…However, the post-processing of video images is generally time consuming when compared to the majority of contact-based techniques, and infrared video images are usually analyzed after data collection. Other contactless sensors that can simultaneously register f R , face expressions and cardiovascular variables are RGB camera sensors and depth sensors [23,189,190]. When the area of the upper chest is filmed, RGB camera sensors can be used to retrieve respiration-induced body movements from the post-processing of video images [132].…”

Section: Measurement and Computingmentioning

confidence: 99%

“…When the area of the upper chest is filmed, RGB camera sensors can be used to retrieve respiration-induced body movements from the post-processing of video images [132]. Alternatively, if the face of the user is recorded with a camera, RGB camera sensors can be used to extract f R from the modulation of the video PPG signal [189].…”

Section: Measurement and Computingmentioning

confidence: 99%

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The Importance of Respiratory Rate Monitoring: From Healthcare to Sport and Exercise

Nicolò

Massaroni

Schena

et al. 2020

Sensors

193

137

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Respiratory rate is a fundamental vital sign that is sensitive to different pathological conditions (e.g., adverse cardiac events, pneumonia, and clinical deterioration) and stressors, including emotional stress, cognitive load, heat, cold, physical effort, and exercise-induced fatigue. The sensitivity of respiratory rate to these conditions is superior compared to that of most of the other vital signs, and the abundance of suitable technological solutions measuring respiratory rate has important implications for healthcare, occupational settings, and sport. However, respiratory rate is still too often not routinely monitored in these fields of use. This review presents a multidisciplinary approach to respiratory monitoring, with the aim to improve the development and efficacy of respiratory monitoring services. We have identified thirteen monitoring goals where the use of the respiratory rate is invaluable, and for each of them we have described suitable sensors and techniques to monitor respiratory rate in specific measurement scenarios. We have also provided a physiological rationale corroborating the importance of respiratory rate monitoring and an original multidisciplinary framework for the development of respiratory monitoring services. This review is expected to advance the field of respiratory monitoring and favor synergies between different disciplines to accomplish this goal.

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Section: Measurement and Computingmentioning

confidence: 99%

Section: Measurement and Computingmentioning

confidence: 99%

The Importance of Respiratory Rate Monitoring: From Healthcare to Sport and Exercise

Nicolò

Massaroni

Schena

et al. 2020

Sensors

193

137

View full text Add to dashboard Cite

show abstract

“…In most of these studies, the estimation of pulse is strongly correlated with the heart rate assessed from finger sensors or electrocardiograms, presenting 1-2% errors. However, while the acquisition process for monitoring the vascular pulse has been simplified, further challenges related to motion artifacts such as respiratory and head movements still require to be taken into consideration [51], [54], [.It has been recently suggested [58] that using two regions of interest could be a solution to evaluate dynamic heart rate by detecting other physiological signs (eg. eye blinking, yawning).…”

Section: A Monitoring Of Vascular Pulsementioning

confidence: 99%

A Survey on Computer Vision for Assistive Medical Diagnosis From Faces

Thevenot

López

Hadid

2018

IEEE J. Biomed. Health Inform.

124

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Automatic medical diagnosis is an emerging center of interest in computer vision as it provides unobtrusive objective information on a patient's condition. The face, as a mirror of health status, can reveal symptomatic indications of specific diseases. Thus, the detection of facial abnormalities or atypical features is at upmost importance when it comes to medical diagnostics. This survey aims to give an overview of the recent developments in medical diagnostics from facial images based on computer vision methods. Various approaches have been considered to assess facial symptoms and to eventually provide further help to the practitioners. However, the developed tools are still seldom used in clinical practice, since their reliability is still a concern due to the lack of clinical validation of the methodologies and their inadequate applicability. Nonetheless, efforts are being made to provide robust solutions suitable for healthcare environments, by dealing with practical issues such as real-time assessment or patients positioning. This survey provides an updated collection of the most relevant and innovative solutions in facial images analysis. The findings show that with the help of computer vision methods, over 30 medical conditions can be preliminarily diagnosed from the automatic detection of some of their symptoms. Furthermore, future perspectives, such as the need for interdisciplinary collaboration and collecting publicly available databases, are highlighted.

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“…Due to the mentioned drawbacks within the existing measurement processes and ever increasing number of possible medical, research and commercial fields of applications, researchers worldwide are exploring the possibilities of experimental non-contact measuring techniques. Several promising novel methods are emerging with encouraging results [ 21 , 22 , 23 , 24 ].…”

Section: Introductionmentioning

confidence: 99%

Design and Clinical Evaluation of a Non-Contact Heart Rate Variability Measuring Device

Kranjec

Beguš

Geršak

et al. 2017

Sensors

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The object of the proposed paper is to design and analyze the performance of a non-contact heart rate variability (HRV) measuring device based on ultrasound transducers. The rationale behind non-contact HRV measurement is the goal of obtaining a means of long term monitoring of a patient’s heart performance. Due to its complexity as a non-contact measuring device, influential physical quantities, error source and other perturbations were thoroughly investigated. For medical purposes it is of utmost importance to define the target uncertainty of a measuring method from the side of physicians, while it is the role of scientists to realistically evaluate all uncertainty contributions. Within this paper we present a novelty method of non-contact HRV measurement based on ultrasound transducers operating at two frequencies simultaneously. We report laboratory results and clinical evaluations are given for healthy subjects as well as patients with known heart conditions. Furthermore, laboratory tests were conducted on subjects during a relaxation period, and after 1 min physical activity

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Non-contact, synchronous dynamic measurement of respiratory rate and heart rate based on dual sensitive regions

Cited by 41 publications

References 32 publications

The Importance of Respiratory Rate Monitoring: From Healthcare to Sport and Exercise

The Importance of Respiratory Rate Monitoring: From Healthcare to Sport and Exercise

A Survey on Computer Vision for Assistive Medical Diagnosis From Faces

Design and Clinical Evaluation of a Non-Contact Heart Rate Variability Measuring Device

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