TY - JOUR
T1 - Compact and low-cost optical fiber respiratory monitoring sensor based on intensity interrogation
AU - Kam, Wern
AU - Mohammed, Waleed Soliman
AU - Leen, Gabriel
AU - O'Keeffe, Mary
AU - O'Sullivan, Kieran
AU - O'Keeffe, Sinead
AU - Lewis, Elfed
N1 - Publisher Copyright:
© 2017 IEEE.
PY - 2017/10/15
Y1 - 2017/10/15
N2 - In this paper, a plastic optical fiber sensor for respiratory monitoring purposes is presented. The sensor was integrated into a small, robust, and flexible package to be attached directly on a wide variety of positions on the upper body tomonitor themotion induced by breathing. The sensor's operating principle is based on the variation in the intensity of the optical coupling intensity ratio between an input and a set of aligned output optical fibers. The system is demonstrated to be able to track the time-varying breathing signal when the sensor is placed at four different positions of the torso (including diaphragmatic and upper costal). The accuracy of the device is confirmed by a simultaneous comparison of the results with a commercial respiratory monitoring device. Measurement of breathing rate on four different healthy subjects showed excellent agreement with the measurement from the commercial respiratory monitoring device. The proposed fiber optic respiration sensor provides the advantages of being relatively low cost, compact, and simple in construction compared to the conventional existing respiration sensors.
AB - In this paper, a plastic optical fiber sensor for respiratory monitoring purposes is presented. The sensor was integrated into a small, robust, and flexible package to be attached directly on a wide variety of positions on the upper body tomonitor themotion induced by breathing. The sensor's operating principle is based on the variation in the intensity of the optical coupling intensity ratio between an input and a set of aligned output optical fibers. The system is demonstrated to be able to track the time-varying breathing signal when the sensor is placed at four different positions of the torso (including diaphragmatic and upper costal). The accuracy of the device is confirmed by a simultaneous comparison of the results with a commercial respiratory monitoring device. Measurement of breathing rate on four different healthy subjects showed excellent agreement with the measurement from the commercial respiratory monitoring device. The proposed fiber optic respiration sensor provides the advantages of being relatively low cost, compact, and simple in construction compared to the conventional existing respiration sensors.
KW - Fiber optic sensor
KW - Respiration rate
KW - Respiratory monitoring device
UR - http://www.scopus.com/inward/record.url?scp=85029143657&partnerID=8YFLogxK
U2 - 10.1109/JLT.2017.2749499
DO - 10.1109/JLT.2017.2749499
M3 - Article
AN - SCOPUS:85029143657
SN - 0733-8724
VL - 35
SP - 4567
EP - 4573
JO - Journal of Lightwave Technology
JF - Journal of Lightwave Technology
IS - 20
M1 - 8026119
ER -