Digital building model: typology and lifecycle management
Апстракт
Lately, there is increasing worldwide pressure that data on buildings be stored in the form of digital models. On the market there exist a large number of applications that enable creation of digital building models either in the form of advanced geometry modeling applications, algorithmic modeling applications or BIM applications. Each of these applications creates a model using its proprietary data format. As it is expected that in the future digital model supports the entire lifetime of the building, this approach raises the question of the sustainability of such digital models. The modern computer industry, at least once a year, launches a new version of the existing application that introduces new functionalities into the program and makes data from previous versions of the application obsolete. One of the suggested solutions for this problem is the IFC data model. This format today becomes more and more important because of its openness and independence from commercial formats wh...ich guarantees that projects saved in this format will be permanently usable.
The paper gives an overview of the existing BIM project management software that tackles the problem of managing a large amount of different file formats that appears during a lifecycle of digital building model. The paper examines the problem of the possibility of connecting all types of digital models that include geometric and BIM models as well as the results of building simulation behavior (structural analysis, energy efficiency, lighting, etc.), models generated by generative algorithms, fabrication models, etc. The issue of introducing new information into existing digital formats, such as the standard IFC interoperability format, will also be considered. This analysis examines the perspectives and principles for the development of a future digital model that would fully cover the entire life cycle of the building. The assumed model does not imply a monolithic data structure but a distributed aggregation of different digital formats.
Кључне речи:
digital building model / BIM / design process / model lifecycle managementИзвор:
On Architecture – Challenges in Architecture, Urban Design and Art; Book of Abstracts, 2019, 13-Издавач:
- Belgrade: STRAND
Финансирање / пројекти:
- Развој методе израде пројектне и извођачке документације инсталационих мрежа у зградама компатибилне са BIM процесом и релевантним стандардима (RS-MESTD-Technological Development (TD or TR)-36038)
Колекције
Институција/група
Inovacioni centarTY - CONF AU - Svetel, Igor AU - Ivanišević, Nenad AU - Isailović, Dušan PY - 2019 UR - https://machinery.mas.bg.ac.rs/handle/123456789/5380 AB - Lately, there is increasing worldwide pressure that data on buildings be stored in the form of digital models. On the market there exist a large number of applications that enable creation of digital building models either in the form of advanced geometry modeling applications, algorithmic modeling applications or BIM applications. Each of these applications creates a model using its proprietary data format. As it is expected that in the future digital model supports the entire lifetime of the building, this approach raises the question of the sustainability of such digital models. The modern computer industry, at least once a year, launches a new version of the existing application that introduces new functionalities into the program and makes data from previous versions of the application obsolete. One of the suggested solutions for this problem is the IFC data model. This format today becomes more and more important because of its openness and independence from commercial formats which guarantees that projects saved in this format will be permanently usable. The paper gives an overview of the existing BIM project management software that tackles the problem of managing a large amount of different file formats that appears during a lifecycle of digital building model. The paper examines the problem of the possibility of connecting all types of digital models that include geometric and BIM models as well as the results of building simulation behavior (structural analysis, energy efficiency, lighting, etc.), models generated by generative algorithms, fabrication models, etc. The issue of introducing new information into existing digital formats, such as the standard IFC interoperability format, will also be considered. This analysis examines the perspectives and principles for the development of a future digital model that would fully cover the entire life cycle of the building. The assumed model does not imply a monolithic data structure but a distributed aggregation of different digital formats. PB - Belgrade: STRAND C3 - On Architecture – Challenges in Architecture, Urban Design and Art; Book of Abstracts T1 - Digital building model: typology and lifecycle management SP - 13 UR - https://hdl.handle.net/21.15107/rcub_machinery_5380 ER -
@conference{ author = "Svetel, Igor and Ivanišević, Nenad and Isailović, Dušan", year = "2019", abstract = "Lately, there is increasing worldwide pressure that data on buildings be stored in the form of digital models. On the market there exist a large number of applications that enable creation of digital building models either in the form of advanced geometry modeling applications, algorithmic modeling applications or BIM applications. Each of these applications creates a model using its proprietary data format. As it is expected that in the future digital model supports the entire lifetime of the building, this approach raises the question of the sustainability of such digital models. The modern computer industry, at least once a year, launches a new version of the existing application that introduces new functionalities into the program and makes data from previous versions of the application obsolete. One of the suggested solutions for this problem is the IFC data model. This format today becomes more and more important because of its openness and independence from commercial formats which guarantees that projects saved in this format will be permanently usable. The paper gives an overview of the existing BIM project management software that tackles the problem of managing a large amount of different file formats that appears during a lifecycle of digital building model. The paper examines the problem of the possibility of connecting all types of digital models that include geometric and BIM models as well as the results of building simulation behavior (structural analysis, energy efficiency, lighting, etc.), models generated by generative algorithms, fabrication models, etc. The issue of introducing new information into existing digital formats, such as the standard IFC interoperability format, will also be considered. This analysis examines the perspectives and principles for the development of a future digital model that would fully cover the entire life cycle of the building. The assumed model does not imply a monolithic data structure but a distributed aggregation of different digital formats.", publisher = "Belgrade: STRAND", journal = "On Architecture – Challenges in Architecture, Urban Design and Art; Book of Abstracts", title = "Digital building model: typology and lifecycle management", pages = "13", url = "https://hdl.handle.net/21.15107/rcub_machinery_5380" }
Svetel, I., Ivanišević, N.,& Isailović, D.. (2019). Digital building model: typology and lifecycle management. in On Architecture – Challenges in Architecture, Urban Design and Art; Book of Abstracts Belgrade: STRAND., 13. https://hdl.handle.net/21.15107/rcub_machinery_5380
Svetel I, Ivanišević N, Isailović D. Digital building model: typology and lifecycle management. in On Architecture – Challenges in Architecture, Urban Design and Art; Book of Abstracts. 2019;:13. https://hdl.handle.net/21.15107/rcub_machinery_5380 .
Svetel, Igor, Ivanišević, Nenad, Isailović, Dušan, "Digital building model: typology and lifecycle management" in On Architecture – Challenges in Architecture, Urban Design and Art; Book of Abstracts (2019):13, https://hdl.handle.net/21.15107/rcub_machinery_5380 .