Title :
Computer models for assessing precision and accuracy limitations of an optical blood gas measurement system
Author :
Bartnik, Daniel J. ; Delander, Denise A. ; Kimball, Victor E.
Abstract :
Describes a system which uses dual-wavelength fiber-optic fluorescent technology for measurement of blood gas values (PO2 , PCO2 and pH). The system is required to provide precise and accurate results, following a single calibration, for up to six days under conditions where the ambient temperature may change by 20°C. This discussion is limited to the dual-wavelength CO2 optical channel. By comparing computer models with measured results, detailed design considerations and limitations which impact the precision and accuracy of measurements are understood. We describe the models used in understanding more about individual system components, the interrelationships of components and optimization of system performance
Keywords :
biomedical measurement; blood; calibration; carbon compounds; computer aided analysis; fibre optic sensors; fluorescence; measurement systems; medical computing; pH measurement; pressure measurement; CO2; O2; PCO2 measurement; PO2 measurement; accuracy limitations; ambient temperature; calibration; component interrelationships; computer models; detailed design considerations; dual-wavelength CO2 optical channel; dual-wavelength fiber-optic fluorescent technology; fiber-optic sensor; optical blood gas measurement system; pH measurement; precision limitations; system performance optimization; Blood; Fluorescence; Gas detectors; Instruments; Light emitting diodes; Optical computing; Optical fiber sensors; Optical filters; Optical sensors; Temperature sensors;
Conference_Titel :
Computer-Based Medical Systems, 1998. Proceedings. 11th IEEE Symposium on
Conference_Location :
Lubbock, TX
Print_ISBN :
0-8186-8564-6
DOI :
10.1109/CBMS.1998.701273
