TY - GEN
T1 - ADAPTIVE MINIMIZED COMMUNICATION PROTOCOL BASED ON BIM
AU - Zahedi, Ata
AU - Petzold, Frank
N1 - Publisher Copyright:
© European Council on Computing in Construction (EC3).
PY - 2019
Y1 - 2019
N2 - The early conceptual architectural design phases are characterized by a constant interplay of creating variants and assessment of those variants as well as their consistent detailing. Variant comparison plays a significant role in achieving the desired final building. Objectifiable criteria used for the evaluation and comparison of design variants can be used to legitimize decisions and selections as the design process proceeds. Moreover, using these criteria, such as the results of simulations and analysis performed by various domain experts, most likely leads to building designs with better performance. One major challenge in practice today is the management of design information and collaboration between several actors in a building project. A large portion of the Architecture, Engineering, and Construction (AEC) industry still deals with conventional methods to exchange design information. The growing use of building information models is promising, but even the most recent developments and practices still rely heavily on human-readable protocols and issue management systems (Beetz 2009; Borrmann et al. 2018). Considering the potential of schematized computer-readable communications to be analyzed and used for future references and case-based reasoning systems, this paper proposes a novel minimized communication protocol based on BIM, which aims to introduce a computer-readable, yet adaptive universal method/function which works on schematized information exchange requirements (templates) for different use cases. Furthermore, this concept will be explained and demonstrated using an example scenario.
AB - The early conceptual architectural design phases are characterized by a constant interplay of creating variants and assessment of those variants as well as their consistent detailing. Variant comparison plays a significant role in achieving the desired final building. Objectifiable criteria used for the evaluation and comparison of design variants can be used to legitimize decisions and selections as the design process proceeds. Moreover, using these criteria, such as the results of simulations and analysis performed by various domain experts, most likely leads to building designs with better performance. One major challenge in practice today is the management of design information and collaboration between several actors in a building project. A large portion of the Architecture, Engineering, and Construction (AEC) industry still deals with conventional methods to exchange design information. The growing use of building information models is promising, but even the most recent developments and practices still rely heavily on human-readable protocols and issue management systems (Beetz 2009; Borrmann et al. 2018). Considering the potential of schematized computer-readable communications to be analyzed and used for future references and case-based reasoning systems, this paper proposes a novel minimized communication protocol based on BIM, which aims to introduce a computer-readable, yet adaptive universal method/function which works on schematized information exchange requirements (templates) for different use cases. Furthermore, this concept will be explained and demonstrated using an example scenario.
UR - http://www.scopus.com/inward/record.url?scp=85085103145&partnerID=8YFLogxK
U2 - 10.35490/EC3.2019.150
DO - 10.35490/EC3.2019.150
M3 - Conference contribution
AN - SCOPUS:85085103145
SN - 9781910963371
T3 - Proceedings of the European Conference on Computing in Construction
SP - 31
EP - 39
BT - Proceedings of the 2019 European Conference on Computing in Construction
A2 - O'Donnell, James
A2 - Chassiakos, Athanasios
A2 - Rovas, Dimitrios
A2 - Hall, Daniel
PB - European Council on Computing in Construction (EC3)
T2 - European Conference on Computing in Construction, EC3 2019
Y2 - 10 July 2019 through 12 July 2019
ER -