1. 1) 見田智大, 須崎貫太, 仲吉信人：高密度気象観測に向けたIoTデバイスの開発，土木学会論文集 B1（水工学），78巻 2号 p. I_727-I_732，2022. [Mita, T., Susaki, K. and Nakayoshi, M.: Development of IoT Devices for High-Density Meteorological Observation, Transaction of the Japan Society of Civil Engineers, Vol. 78, No. 2, pp. I_727-I_732, 2022.]

2. 2) 小野村史穂, 高橋淳也, 仲吉信人：埼玉県における熱中症搬送者の暴露気象条件・生理応答の再現計算および熱中症リスク指標の構築, 土木学会論文集 B1（水工学）, 77巻, 2号, p. I_1333-I_1338，2021.[Onomura, S., Takahashi, J., Nakayoshi, M.: Development of Risk Indicator of HeatStroke By Reproducing Physiological Responses of Patients in Saitama Prefecture, Transaction of the Japan Society of Civil Engineers, Vol. 77, No. 2, pp. I_1333-I_1338, 2021.]

3. 3) Gagge A. P. : An Effective Temperature Scale Based on a Simple Model of Human Physiological Regulatory Response, ASHRAE Trans., 77, pp. 247-262, 1971

4. 4) Yutaka Kobayashi, Shin-ichi Tanabe : Development of JOS-2 human thermoregulation model with detailed vascular system, Building and Environment, Vol. 66, pp1-10, 2013

5. 5) Shin-ichi Tanabe, Kozo Kobayashi, Junta Nakano, Yoshiichi Ozeki, Masaaki Konishi : Evaluation of thermal comfort using combined multi-node thermoregulation (65MN) and radiation models and computational fluid dynamics (CFD), Energy and Buildings, Vol 34(6), pp634-646, 2002