Title :
Improvement of the dual-heat-flux method for deep body temperature measurement based on a finite element model
Author :
Ming Huang ; Wenxi Chen ; Kitamura, Kei-ichiro ; Nemoto, Takuma ; Tamura, Takuya
Author_Institution :
QRS Co. Ltd., Funabashi, Japan
Abstract :
Based on finite element method, this study was dedicated to improve the performance of the newly proposed dual-heat-flux method (DHF) for noninvasive deep body temperature (DBT) measurement. This study focused mainly on the dimensions, e.g., the height and radius, of the probe of DHF to improve its performance, in terms of the measurement depth beneath the skin. This paper was also engaged in confirmation of the improved probe´s performance on a physiological significant temperature range, 35 to 40°C. The results showed that a probe with lower in height and larger in radius would have better performance. It suggests that we should reduce the height of the probe to half of the original and keep the radius unchanged for a better performance.
Keywords :
biomedical measurement; biothermics; finite element analysis; heat transfer; physiological models; skin; spatial variables measurement; temperature measurement; DHF probe height; DHF probe radius; deep body temperature measurement; depth measurement; dual-heat-flux method; finite element model; skin; temperature 35 degC to 40 degC; Blood; Finite element analysis; Heating; Probes; Prototypes; Skin; Temperature measurement;
Conference_Titel :
Engineering in Medicine and Biology Society (EMBC), 2013 35th Annual International Conference of the IEEE
Conference_Location :
Osaka
DOI :
10.1109/EMBC.2013.6609722
