Seuraa
Thomas Parkinson
Thomas Parkinson
Lecturer, The University of Sydney
Vahvistettu sähköpostiosoite verkkotunnuksessa sydney.edu.au
Nimike
Viittaukset
Viittaukset
Vuosi
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
4142019
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
3882018
Thermal pleasure in built environments: physiology of alliesthesia
T Parkinson, R De Dear
Building Research & Information 43 (3), 288-301, 2015
2402015
Nudging the adaptive thermal comfort model
T Parkinson, R De Dear, G Brager
Energy and Buildings 206, 109559, 2020
1782020
Continuous IEQ monitoring system: Context and development
T Parkinson, A Parkinson, R de Dear
Building and Environment 149, 15-25, 2019
1492019
Residential adaptive comfort in a humid subtropical climate—Sydney Australia
R De Dear, J Kim, T Parkinson
Energy and Buildings 158, 1296-1305, 2018
1262018
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
1252016
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
1232017
Lessons learned from 20 years of CBE’s occupant surveys
LT Graham, T Parkinson, S Schiavon
Buildings and Cities 2 (1), 2021
1042021
Thermal pleasure in built environments: spatial alliesthesia from air movement
T Parkinson, R de Dear
Building Research & Information 45 (3), 320-335, 2017
832017
Continuous IEQ monitoring system: Performance specifications and thermal comfort classification
T Parkinson, A Parkinson, R De Dear
Building and Environment 149, 241-252, 2019
782019
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
762019
Thermal pleasure in built environments: spatial alliesthesia from contact heating
T Parkinson, R de Dear
Building Research & Information 44 (3), 248-262, 2016
652016
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
642018
Perception of Transient Thermal Environments: pleasure and alliesthesia
T Parkinson, R De Dear, C Candido
Proceedings of 7th Windsor Conference, Windsor, UK, 2012
572012
Improved long-term thermal comfort indices for continuous monitoring
P Li, T Parkinson, S Schiavon, TM Froese, R de Dear, A Rysanek, ...
Energy and buildings 224, 110270, 2020
472020
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
422019
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
392019
Overcooling of offices reveals gender inequity in thermal comfort
T Parkinson, S Schiavon, R de Dear, G Brager
Scientific reports 11 (1), 23684, 2021
372021
The impact of occupant's thermal sensitivity on adaptive thermal comfort model
RF Rupp, T Parkinson, J Kim, J Toftum, R de Dear
Building and Environment 207, 108517, 2022
362022
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