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Abstract: The objective of this study was to design a non-invasive system for the observation of respiratory rates and detection of apnoea using analysis of real time image sequences captured in any given sleep position and under any light conditions (even in dark environments). A Microsoft Kinect sensor was used to visualize the variations in the thorax and abdomen from the respiratory rhythm. These variations were magnified, analyzed and detected at a distance of 2.5 m from the subject. A modified motion magnification system and frame subtraction technique were used to identify breathing movements by detecting rapid motion areas in the magnified frame sequences. The experimental results on a set of video data from five subjects (3 h for each subject) showed that our monitoring system can accurately measure respiratory rate and therefore detect apnoea in infants and young children. The proposed system is feasible, accurate, safe and low computational complexity, making it an efficient alternative for non-contact home sleep monitoring systems and advancing health care applications. Keywords: apnoea; apparent life-threatening event; Microsoft Kinect sensor; real-time image sequence analysis; motion magnification; motion detection. An open access article: Free full-text available at http://www.mdpi.com/1424-8220/17/2/286
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This page is a summary of: Real Time Apnoea Monitoring of Children Using the Microsoft Kinect Sensor: A Pilot Study, Sensors, February 2017, MDPI AG,
DOI: 10.3390/s17020286.
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