High-density thermal sensitivity maps of the human body.
Luo, M., Z. Wang, H. Zhang, E. Arens, D. Filingeri, L. Jin, A. Ghahramani, W. Chen, Y. He, and B. Si
Building and Environment
167 (2020)
A review of adaptive thermal comfort research since 1998
de Dear R, Xiong J, Kim J and Cao B.
Energy and Buildings
214 (2020)
Evaluating assumptions of scales for subjective assessment of thermal environments – do laypersons perceive them the way, we researchers believe?
Schweiker, M., Abdul-Zahra, A., André, M., Al-Atrash, F., Al-Khatri, H., Alprianti, R. R., … Zomorod
Energy and Buildings
211 (2020)
A seasonal approach to Alliesthesia. Is there a conflict with thermal adaptation?
Schweiker, M., Fuchs, X., Schakib-Ekbatan, K., & Becker, S
Energy and Buildings
212(2020), 1–13
Personal Comfort Systems: A review on comfort, energy, and economics
Rawal, R., Schweiker, M., Kazanci, O. B., Vardhan, V., Jin, Q., & Duanmu, L
Energy and Buildings
Thermal expectation: Influencing factors and its effect on thermal perception
Schweiker, M., Rissetto, R., & Wagner, A.
Energy and Buildings
210 (2020)
The colours of comfort: From thermal sensation to person-centric thermal zones for adaptive building strategies
Gauthier, S., Bourikas, L., Al-Atrash, F., Bae, C., Chun, C., de Dear, R., Hellwig, R.T., Kim, J., K
Energy and Buildings
Critical review of standards for indoor thermal environment and air quality
Khovalyg, D., Kazanci, O. B., Halvorsen, H., Gundlach, I., Bahnfleth, W. P., Toftum, J., & Olesen, B
Energy and Buildings
213 ( 2019)
Nudging the adaptive thermal comfort model
Parkinson T, de Dear R and Brager G
Energy and Buildings
Defining the thermal sensitivity (Griffiths constant) of building occupants in the Korean residential context
Ryu J, Kim J, Hong W and de Dear R
Energy and Buildings
208 ( 2019)
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