Abstract
Building Information Modeling (BIM) is one of the key technologies in the building
and real estate industry and will have a great impact on the value chain of all stakeholders
along the building sector. BIM methodology supports the overall building life cycle in which
mechanical, electrical and plumbing (MEP) plays a central role. Properties such as the energy
consumption and operating costs of a building are fundamentally determined by the quality of
MEP planning and implementation. Studies have shown that open data interfaces such as
Industry Foundation Classes (IFC) and the interoperability between different software environments
are especially important for MEP planning. Open data exchange with Open BIM
requires standardized data models and its modeling processes. Several research studies show
that Open BIM data models for MEP are not yet fully applicable in real world projects. This
applies to the MEP data models themselves, as well as to process models that describe the
level of development and responsibilities throughout all phases of a BIM project. The aim of
the research project "metaTGA" presented in this paper, are the design of a methodology for
developing data- and process-models and to apply and validate them by modeling selected
MEP systems. This paper presents the first results of the project and it provides an overview
of the methodology of metadata harvesting shown for a silencer component as example.
Originalsprache | Deutsch |
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Titel | Science.Research.Pannonia, Gebäuder der Zukunft? |
Seiten | 253-259 |
Seitenumfang | 7 |
Publikationsstatus | Veröffentlicht - 2018 |
Veranstaltung | e-nova 2018 Gebäude der Zukunft? - Dauer: 22 Nov. 2018 → 23 Nov. 2018 |
Konferenz
Konferenz | e-nova 2018 Gebäude der Zukunft? |
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Zeitraum | 22/11/18 → 23/11/18 |
Research Field
- Ehemaliges Research Field - Digitalisation and HVAC Technologies in Buildings