比较局部皮肤温度在评估正常室温下整体热舒适度方面的性能

IF 7.1 1区 工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY
Siyi Li , Jun Xu , Weiwei Liu , Zhiliang Wang
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引用次数: 0

摘要

局部皮肤温度被认为是热舒适度评估的潜在生理参数。然而,哪些部位更适合用于热舒适度评估仍需进一步研究。本研究招募了 20 名坐位受试者,在气候箱中进行冬夏两季的热舒适度和皮肤温度监测实验。冬季和夏季的实验温度分别为 12 ℃-24 ℃ 和 24 ℃-32 ℃。通过费舍尔判别分析,为八个部位的局部皮肤温度建立了热舒适度评估模型。使用精确度和假阴性率(FNR)对所开发模型的性能进行了评估。结果表明,左手背、左手腕和左前臂皮肤温度的热舒适度评价精确度高于其他部位,而假阴性率则低于其他部位,适合用于热舒适度评价。左胸部皮肤温度的精确度最低,FNR 最高,不适合进行热舒适度评估。通过合理选择身体部位,使用单点皮肤温度评估热舒适度比使用平均皮肤温度更好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparison of the performance of local skin temperatures in evaluating overall thermal comfort at normal room temperatures
Local skin temperature is considered to be a potential physiological parameter for thermal comfort evaluation. However, which parts are more suitable for thermal comfort evaluation still needs further investigation. In this study, 20 seated subjects were recruited for thermal comfort and skin temperature monitoring experiments conducted in a climate chamber during winter and summer. The experimental temperatures in winter and summer were 12 °C–24 °C and 24 °C–32 °C, respectively. Thermal comfort evaluation models were developed for the local skin temperature of eight parts via the Fisher discriminant analysis. The performance of the developed models was evaluated using precision and false negative rate (FNR). The results indicated that the skin temperatures of the back of the left hand, left wrist, and left forearm had higher precision for thermal comfort evaluation than those of other parts, whereas the FNR was lower than in the other parts, which were suitable for thermal comfort evaluation. The skin temperature of the left chest had the lowest precision and the highest FNR, making it unsuitable for thermal comfort evaluation. By reasonably selecting body parts, the use of single-point skin temperature to evaluate thermal comfort was better than the use of the mean skin temperature.
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来源期刊
Building and Environment
Building and Environment 工程技术-工程:环境
CiteScore
12.50
自引率
23.00%
发文量
1130
审稿时长
27 days
期刊介绍: Building and Environment, an international journal, is dedicated to publishing original research papers, comprehensive review articles, editorials, and short communications in the fields of building science, urban physics, and human interaction with the indoor and outdoor built environment. The journal emphasizes innovative technologies and knowledge verified through measurement and analysis. It covers environmental performance across various spatial scales, from cities and communities to buildings and systems, fostering collaborative, multi-disciplinary research with broader significance.
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