A pressure sensitive mat estimated respiration rate and heart rate with root mean squared errors of 0.87-1.32 breaths/minute and 5.55 bpm, respectively, compared to accelerometer references.
Observational (n=15)
Does a pressure sensitive mat accurately estimate respiration rate and heart rate compared to accelerometer sensors in supine participants?
A pressure sensitive mat provides reasonable estimation of respiration and heart rates compared to body-worn accelerometers, suggesting potential for unobtrusive home health monitoring.
Measuring the respiration and heart rate unobtrusively in home settings is an important goal for health monitoring. In this work, use of a pressure sensitive mat was explored. Two methods using body morphology information, based on shoulder blades and weighted centroid, were developed for respiration rate (RR) calculation. Heart rate (HR) was calculated by combining the frequency information from different body regions. Experimental data were collected from 15 participants in a supine position via a pressure sensitive mat placed under the upper torso. RR and HR estimations derived from accelerometer sensors attached to participants’ bodies were used as references to evaluate the accuracy of the proposed methods. All three methods achieved a reasonable estimation compared to the reference. The root mean squared error of the proposed RR estimation methods were 1.32 and 0.87 breath/minute respectively, and the root mean squared error of the HR estimation method was 5.55 bpm.
Huang et al. (Mon,) reported a observational. Pressure sensitive mat vs. Accelerometer sensors was evaluated on Accuracy of respiration rate (RR) and heart rate (HR) estimation (root mean squared error). A pressure sensitive mat estimated respiration rate and heart rate with root mean squared errors of 0.87-1.32 breaths/minute and 5.55 bpm, respectively, compared to accelerometer references.