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A. Mate, U. Pont, A. Mahdavi:
"Controlled Auto-Adjustement of Construction Details via BIM-Environments and Parametric Modelling";
Poster: VSS VIENNA young SCIENTISTS SYMPOSIUM, TU Wien; 07.06.2018 - 08.06.2018; in: "VSS - Venna young scientists symposium", P. Hans, G. Artner, J. Grames, H. Krebs, H. Mansouri Khosravi, T. Rouhi (Hrg.); Book-of-Abstracts, (2018), ISBN: 978-3-9504017-8-3; S. 26 - 27.

(no german version)
Building Information Modelling (BIM) is commonly understood as a holistic approach to support the generation and management of digital (and semantically enriched) representations of physical and functional properties of (parts of) the built environment. As compared to conventional CAD (Computer-aided Design) environments, a fundamental feature (and a key advantage) of BIM applications is that the representations are modified and controlled via property settings, not via mere drafting-oriented geometric views (e.g., wireframe line models). However, BIM objects of constituting building parts, which are sorted in so-called families, possess only a limited set of degrees of freedom where and how they might be situated in a building representation. Adapting an object to a construction or installation context still has to be performed by a human user. It this context, it is important to realize that there are normative rules for many building constituents that might be integrated in BIM-environments via algorithms. The present contribution illustrates a case study pertaining to windows and their representations in a common BIM modelling tool. Thereby, the coupling of a parametric modelling environment with BIM is explored in view of an automated approach to context-responsive object attribute adjustment.

Building Information Modelling (BIM) is commonly understood as a holistic approach to support the generation and management of digital (and semantically enriched) representations of physical and functional properties of (parts of) the built environment. As compared to conventional CAD (Computer-aided Design) environments, a fundamental feature (and a key advantage) of BIM applications is that the representations are modified and controlled via property settings, not via mere drafting-oriented geometric views (e.g., wireframe line models). However, BIM objects of constituting building parts, which are sorted in so-called families, possess only a limited set of degrees of freedom where and how they might be situated in a building representation. Adapting an object to a construction or installation context still has to be performed by a human user. It this context, it is important to realize that there are normative rules for many building constituents that might be integrated in BIM-environments via algorithms. The present contribution illustrates a case study pertaining to windows and their representations in a common BIM modelling tool. Thereby, the coupling of a parametric modelling environment with BIM is explored in view of an automated approach to context-responsive object attribute adjustment.