| 1 |
Thermal comfort prediction using normalized skin temperature in a uniform built environment
Chaudhuri T, Zhai DQ, Soh YC, Li H, Xie LH
Energy and Buildings, 159, 426, 2018 |
| 2 |
Real-time human skin temperature analysis using thermal image recognition for thermal comfort assessment
Metzmacher H, Wolki D, Schmidt C, Frisch J, van Treeck C
Energy and Buildings, 158, 1063, 2018 |
| 3 |
Estimated thermal sensation models by physiological parameters during wind chill stimulation in the indoor environment
Cheng CC, Lee D, Huang BS
Energy and Buildings, 172, 337, 2018 |
| 4 |
Non-intrusive interpretation of human thermal comfort through analysis of facial infrared thermography
Li D, Menassa CC, Kamat VR
Energy and Buildings, 176, 246, 2018 |
| 5 |
A rigorous mathematical model for online prediction of tube skin temperature in an industrial top-fired steam methane reformer
Darvishi P, Zareie-Kordshouli F
Chemical Engineering Research & Design, 126, 32, 2017 |
| 6 |
Physiological response to typical temperature step-changes in winter of China
Xiong J, Lian ZW, Zhang HB
Energy and Buildings, 138, 687, 2017 |
| 7 |
Study on human skin temperature and thermal evaluation in step change conditions: From non-neutrality to neutrality
Ji WJ, Cao B, Geng Y, Zhu YX, Lin BR
Energy and Buildings, 156, 29, 2017 |
| 8 |
Evaluation of a human skin surface temperature for the protective clothing - Skin system based on the protective clothing-skin imitating material results
Furmanski P, Lapka P
International Journal of Heat and Mass Transfer, 114, 1331, 2017 |
| 9 |
Thermal perception and skin temperature in different transient thermal environments in summer
Xiong J, Zhou X, Lian ZW, You JX, Lin YB
Energy and Buildings, 128, 155, 2016 |
| 10 |
Analysis of the static thermal comfort equation
Bartal I, Banhidi HL, Garbai L
Energy and Buildings, 49, 188, 2012 |
