| Development of the ASHRAE global thermal comfort database II VF Ličina, T Cheung, H Zhang, R De Dear, T Parkinson, E Arens, C Chun, ... Building and Environment 142, 502-512, 2018 | 150 | 2018 |
| Thermal pleasure in built environments: physiology of alliesthesia T Parkinson, R De Dear Building Research & Information 43 (3), 288-301, 2015 | 148 | 2015 |
| Analysis of the accuracy on PMV–PPD model using the ASHRAE Global Thermal Comfort Database II T Cheung, S Schiavon, T Parkinson, P Li, G Brager Building and Environment 153, 205-217, 2019 | 128 | 2019 |
| Understanding patterns of adaptive comfort behaviour in the Sydney mixed-mode residential context J Kim, R de Dear, T Parkinson, C Candido Energy and Buildings 141, 274-283, 2017 | 71 | 2017 |
| Residential adaptive comfort in a humid subtropical climate—Sydney Australia R de Dear, J Kim, T Parkinson Energy and Buildings 158, 1296-1305, 2018 | 66 | 2018 |
| Thermal pleasure in built environments: alliesthesia in different thermoregulatory zones T Parkinson, R de Dear, C Candido Building Research & Information 44 (1), 20-33, 2016 | 64 | 2016 |
| Nudging the adaptive thermal comfort model T Parkinson, R de Dear, G Brager Energy and Buildings 206, 109559, 2020 | 45 | 2020 |
| Continuous IEQ monitoring system: Context and development T Parkinson, A Parkinson, R de Dear Building and Environment 149, 15-25, 2019 | 43 | 2019 |
| Perception of Transient Thermal Environments: pleasure and alliesthesia T Parkinson, R De Dear, C Candido Proceedings of 7th Windsor Conference, Windsor, UK, 2012 | 41 | 2012 |
| Thermal pleasure in built environments: spatial alliesthesia from air movement T Parkinson, R de Dear Building Research & Information 45 (3), 320-335, 2017 | 39 | 2017 |
| Continuous IEQ monitoring system: Performance specifications and thermal comfort classification T Parkinson, A Parkinson, R de Dear Building and Environment 149, 241-252, 2019 | 34 | 2019 |
| Thermal pleasure in built environments: spatial alliesthesia from contact heating T Parkinson, R de Dear Building Research & Information 44 (3), 248-262, 2016 | 34 | 2016 |
| Residential adaptive comfort in a humid continental climate–Tianjin China Y Song, Y Sun, S Luo, Z Tian, J Hou, J Kim, T Parkinson, R de Dear Energy and Buildings 170, 115-121, 2018 | 32 | 2018 |
| Thermal comfort in a mixed-mode building: Are occupants more adaptive? J Kim, F Tartarini, T Parkinson, P Cooper, R De Dear Energy and Buildings 203, 109436, 2019 | 28 | 2019 |
| A data-driven approach to defining acceptable temperature ranges in buildings P Li, T Parkinson, G Brager, S Schiavon, TCT Cheung, T Froese Building and Environment 153, 302-312, 2019 | 22 | 2019 |
| Quantifying useful thermal mass: how much thermal mass do you need? B Slee, T Parkinson, R Hyde Architectural Science Review 57 (4), 271-285, 2014 | 21 | 2014 |
| Lessons learned from 20 years of CBE’s occupant surveys LT Graham, T Parkinson, S Schiavon Buildings and Cities 2 (1), 2021 | 19* | 2021 |
| Field study of air conditioning and thermal comfort in residential buildings J Kim, R De Dear, T Parkinson, C Candido, P Cooper, Z Ma, W Saman | 19 | 2016 |
| Can you have too much thermal mass B Slee, T Parkinson, R Hyde Cutting Edge in Architectural Science: Proceedings of the 47th International …, 2013 | 18 | 2013 |
| The Squeaky wheel: Machine learning for anomaly detection in subjective thermal comfort votes Z Wang, T Parkinson, P Li, B Lin, T Hong Building and Environment 151, 219-227, 2019 | 13 | 2019 |
Richard de DearIEQ Lab, School of Architecture, Design and Planning, The University of SydneyVerified email at sydney.edu.au
