Yae Hasebe scite author profile

The use of R-R interval and the coefficient of variation in R-R intervals (CVR-R) for the evaluation of thermal comfort was investigated. The experiments were carried out with ten male subjects but data from one were excluded from the analysis. Thermal sensation, comfort, and tolerance of environmental conditions were reported and mean skin temperature, R-R interval and CVR-R were monitored during a 3 h period in a climatic chamber with the operative temperature set at 26, 20, or 30 degrees C. Relative humidity was maintained at ca. 50% in each case. At the operative temperature of 20 degrees C, the mean skin temperature was significantly lower, the cold sensation was significantly more intense, and discomfort was significantly greater than at 26 degrees C and R-R interval was increased significantly. Seven of the nine subjects were unable to tolerate this thermal environment. The R-R interval and CVR-R were increased in five and four of those seven subjects, respectively. At the operative temperature of 30 degrees C, the mean skin temperature was significantly higher, and the sensation of warmth was significantly more intense than at 26 degrees C. Seven of the nine subjects felt discomfort, and four of the seven reported an inability to tolerate this thermal environment. The R-R interval and CVR-R were decreased in four and three of these four subjects, respectively. At the operative temperature of 20 degrees C CVR-R was significantly greater than that at 30 degrees C.(ABSTRACT TRUNCATED AT 250 WORDS)

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Evaluation of Thermal Environments With a Skin-Surface-Temperature-Controlled Thermal Manikin

Tanabe

Hasebe

1993

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Control principle and evaluation method for thermal envirQnment with the thermal manikin are described in this paper， Under the still air conditions ， nude and clothed thermal 皿 anikin was ex ． posed to measure skin temperatures and heat loss ． Combined heat transfer coefficient for nude conditions were estimated and they were not depended on the surrounding temperatures and its averaged value was 7， g W ／ in2°C ． Those at foot and hand were bigger than other parts and thigh and crotch were smaller ． The method to calculate PMV from total heat loss was described ．

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Estimation of thermal sensation using PMV and SET under high air movement conditions

Tanabe

Hasebe

Kimura

et al. 1993

Journal of Thermal Biology

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Yae Hasebe

Pleasant odors attenuate the blood pressure increase during rhythmic handgrip in humans

Usefulness of R-R interval and its variability in evaluation of thermal comfort

Evaluation of Thermal Environments With a Skin-Surface-Temperature-Controlled Thermal Manikin

Estimation of thermal sensation using PMV and SET under high air movement conditions

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