TY - JOUR
T1 - Simulation-aided occupant-centric building design
T2 - A critical review of tools, methods, and applications
AU - Azar, Elie
AU - O'Brien, William
AU - Carlucci, Salvatore
AU - Hong, Tianzhen
AU - Sonta, Andrew
AU - Kim, Joyce
AU - Andargie, Maedot S.
AU - Abuimara, Tareq
AU - El Asmar, Mounir
AU - Jain, Rishee K.
AU - Ouf, Mohamed M.
AU - Tahmasebi, Farhang
AU - Zhou, Jin
N1 - Publisher Copyright: © 2020 Elsevier B.V.
PY - 2020/10/1
Y1 - 2020/10/1
N2 - Occupants are active participants in their built environment, affecting its performance while simultaneously being affected by its design and indoor environmental conditions. With recent advances in computer modeling, simulation tools, and analysis techniques, topics such as human-building interactions and occupant behavior have gained significant interest in the literature given their premise of improving building design processes and operating strategies. In practice, the focus of occupant-centric literature has been mostly geared towards the latter (i.e., operation), leaving the implications on building design practices underexplored. This paper fills the gap by providing a critical review of existing studies applying computer-based modeling and simulation to guide occupant-centric building design. The reviewed papers are organized along four main themes, namely occupant-centric: (i) metrics of building performance, (ii) modeling and simulation approaches, (iii) design methods and applications, and (iv) supporting practices and mechanisms. Important barriers are identified for a more effective application of occupant-centric building design practices, including the limited consideration of metrics beyond energy efficiency (e.g., occupant well-being and space planning), the limited implementation and validation of the proposed methods, and the lack of integration of occupant behavior modeling in existing building performance simulation tools. Future research directions are discussed, covering large-scale international data collection efforts to move from generic assumptions about occupant behavior to specific/localized knowledge, improved metrics of measuring building performance, and improved industry practices, such as building codes, to promote an occupant-in-the-loop approach to the building design process.
AB - Occupants are active participants in their built environment, affecting its performance while simultaneously being affected by its design and indoor environmental conditions. With recent advances in computer modeling, simulation tools, and analysis techniques, topics such as human-building interactions and occupant behavior have gained significant interest in the literature given their premise of improving building design processes and operating strategies. In practice, the focus of occupant-centric literature has been mostly geared towards the latter (i.e., operation), leaving the implications on building design practices underexplored. This paper fills the gap by providing a critical review of existing studies applying computer-based modeling and simulation to guide occupant-centric building design. The reviewed papers are organized along four main themes, namely occupant-centric: (i) metrics of building performance, (ii) modeling and simulation approaches, (iii) design methods and applications, and (iv) supporting practices and mechanisms. Important barriers are identified for a more effective application of occupant-centric building design practices, including the limited consideration of metrics beyond energy efficiency (e.g., occupant well-being and space planning), the limited implementation and validation of the proposed methods, and the lack of integration of occupant behavior modeling in existing building performance simulation tools. Future research directions are discussed, covering large-scale international data collection efforts to move from generic assumptions about occupant behavior to specific/localized knowledge, improved metrics of measuring building performance, and improved industry practices, such as building codes, to promote an occupant-in-the-loop approach to the building design process.
KW - Building design
KW - Building performance simulation
KW - Human-building interaction
KW - Occupant behavior
KW - Occupant-centric
KW - Performance metrics
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U2 - 10.1016/j.enbuild.2020.110292
DO - 10.1016/j.enbuild.2020.110292
M3 - Review article
SN - 0378-7788
VL - 224
JO - Energy and Buildings
JF - Energy and Buildings
M1 - 110292
ER -