Title :
Textile-Based Capacitive Sensors for Respiration Monitoring
Author :
Merritt, Carey R. ; Nagle, H. Troy ; Grant, Edward
Author_Institution :
Dept. of Electr. & Comput. Eng., North Carolina State Univ., Raleigh, NC
Abstract :
Respiration monitoring in everyday life enables the early detection of the diseases and disorders that can suddenly manifest in a life threatening episode. Long-term monitoring can extend the capabilities of healthcare providers if reliability can be achieved economically. In this paper, the potential for using capacitive sensing to serve as an inexpensive method for long-term respiration sensing is explored. This paper proposes new designs of capacitive sensors for respiration sensing and describes the design and fabrication of a prototype textile-based capacitive-sensor respiration belt. Two capacitive sensors were designed and fabricated for detecting chest or abdominal circumference changes of up to 60 mm. These sensors gave good linearity, and the respiration measurements obtained with these new sensors show that they are capable of measuring respiration rate, and possibly lung function parameters.
Keywords :
biomedical equipment; biomedical measurement; capacitive sensors; diseases; health care; lung; medical disorders; patient diagnosis; patient monitoring; pneumodynamics; textiles; abdominal circumference changes; chest circumference changes detection; early stage-of-disease detection; healthcare providers; life threatening episode; long-term respiration rate monitoring; lung function parameters; medical disorder detection; prototype textile-based capacitive-sensor design; respiration rate measurement; textile-based capacitive-sensor fabrication; Abdomen; Belts; Capacitive sensors; Diseases; Fabrication; Linearity; Lungs; Medical services; Monitoring; Prototypes; 90$^circ$ drive; Differential capacitive sensor; respiration belt; respiration monitoring;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2008.2010356
