TY - JOUR
T1 - Consistent management and evaluation of building models in the early design stages
AU - Abualdenien, Jimmy
AU - Schneider-Marin, Patricia
AU - Zahedi, Ata
AU - Harter, Hannes
AU - Exner, Hannah
AU - Steiner, Daniel
AU - Singh, Manav Mahan
AU - Borrmann, André
AU - Lang, Werner
AU - Petzold, Frank
AU - König, Markus
AU - Geyer, Philipp
AU - Schnellenbach-Held, Martina
N1 - Publisher Copyright:
© 2020 The author(s). This is an open access article distributed under the terms of the Creative Commons Attribution 4.0 International (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
PY - 2020/3
Y1 - 2020/3
N2 - The early stages of building design involve the consideration of different design variants and their assessment regarding various performance criteria including energy consumption and costs. During the design process, the involved experts from different disciplines frequently exchange building information to develop a design that satisfies the project's requirements and objectives. In the course of this iterative process, the building design evolves throughout multiple refinement stages. At the same time, different variants are developed. In BIM-based projects, the maturity of the design information provided by the model is expressed by the notion of Level of development (LOD). So far, however, there is no method to formally define the information requirements of a LOD. In particular, there are no means for expressing the uncertainty involved with the provided information. By contrast, despite the insufficient information available in early design stages, a BIM model appears precise and certain. This situation leads to false assumptions and model evaluations, for example, in the case of energy efficiency calculations or structural analysis. Hence, this paper presents an overview of a set of approaches that were developed to alleviate and preserve the consistency of the designed solutions. The approach includes the development of a multi-LOD meta-model, which allows one to explicitly describe the LOD requirements of each building component type incorporating the possible uncertainties, e.g. concerning the building dimensions. On the basis of this multi-LOD model, methods for evaluating a building design's performance regarding the building's structure and life cycle energy performance are proposed that take the defined uncertainties into account. To support the management of design variants in one consistent model, a graph-based approach is introduced. Finally, a minimized communication protocol is described to facilitate the workflow and communicate the evaluation results for supporting the decision-making process.
AB - The early stages of building design involve the consideration of different design variants and their assessment regarding various performance criteria including energy consumption and costs. During the design process, the involved experts from different disciplines frequently exchange building information to develop a design that satisfies the project's requirements and objectives. In the course of this iterative process, the building design evolves throughout multiple refinement stages. At the same time, different variants are developed. In BIM-based projects, the maturity of the design information provided by the model is expressed by the notion of Level of development (LOD). So far, however, there is no method to formally define the information requirements of a LOD. In particular, there are no means for expressing the uncertainty involved with the provided information. By contrast, despite the insufficient information available in early design stages, a BIM model appears precise and certain. This situation leads to false assumptions and model evaluations, for example, in the case of energy efficiency calculations or structural analysis. Hence, this paper presents an overview of a set of approaches that were developed to alleviate and preserve the consistency of the designed solutions. The approach includes the development of a multi-LOD meta-model, which allows one to explicitly describe the LOD requirements of each building component type incorporating the possible uncertainties, e.g. concerning the building dimensions. On the basis of this multi-LOD model, methods for evaluating a building design's performance regarding the building's structure and life cycle energy performance are proposed that take the defined uncertainties into account. To support the management of design variants in one consistent model, a graph-based approach is introduced. Finally, a minimized communication protocol is described to facilitate the workflow and communicate the evaluation results for supporting the decision-making process.
KW - Building Information Modeling (BIM)
KW - Design Management
KW - Design Variant
KW - Early Design Stages
KW - Embedded Energy Assessment
KW - Exchange Requirements (ER)
KW - Level Of Development (LOD)
KW - Life Cycle Assessment (LCA)
KW - Life Cycle Energy Assessment (LCEA)
KW - Meta-model
KW - Multi-LOD
KW - Operational Energy Assessment
KW - Sustainable Building Design
UR - http://www.scopus.com/inward/record.url?scp=85085154354&partnerID=8YFLogxK
U2 - 10.36680/j.itcon.2020.013
DO - 10.36680/j.itcon.2020.013
M3 - Article
AN - SCOPUS:85085154354
SN - 1874-4753
VL - 25
SP - 212
EP - 232
JO - Journal of Information Technology in Construction
JF - Journal of Information Technology in Construction
ER -