BIM-based design decisions documentation using design episodes, explanation tags, and constraints

Zahedi, Ata; Abualdenien, Jimmy; Petzold, Frank; Borrmann, André

doi:10.36680/j.itcon.2022.037

Cited by 6 publications

(8 citation statements)

References 74 publications

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“…Nevertheless, automated matching of LCA and IFC data on the element level using NLP has not been developed yet [2]. Finally, Zahedi et al proposed an NLP approach for documenting design decisions by searching building codes and request for proposal documents [29].…”

Section: Nlp Application In Aecmentioning

confidence: 99%

Calculation of embodied GHG emissions in early building design stages using BIM and NLP-based semantic model healing

Forth

Abualdenien

Borrmann

2023

Energy and Buildings

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Section: Nlp Application In Aecmentioning

confidence: 99%

Calculation of embodied GHG emissions in early building design stages using BIM and NLP-based semantic model healing

Forth

Abualdenien

Borrmann

2023

Energy and Buildings

Self Cite

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“…In the same way, the contractors transfer most BIM operations responsibilities to an external provider, which costs more than 80 percent of the BIM budget. Despite the fact that contractors may choose BIM operations from an external provider [41], which takes up the BIM budget amongst 80 percent as well as 20 percent. On the other hand, making BIM outsourcing decisions effectively remains difficult.…”

Section: Related Workmentioning

confidence: 99%

Assessment of a Decision-Making Model for Monitoring the Success of a Project for Smart Buildings

2023

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Objective: To express the usage of intelligent concepts in the architectural building construction field that are primarily concerned with reducing building energy use. Improved energy-saving methods and the use of environmentally friendly design principles are essential in this field. This type of managerial decision-making is necessary for the success of these types of projects. Methods: monitoring the performance of intelligent buildings use the cost variance (CV) and schedule variation as standard metrics to track the progress of a project based on the save energy concept. Also, this research conducted a comparative study on Building Information Modelling (BIM) and (MCDM) decision-making limitations as presented in the article. Analysis: the conventional technique, on the other hand, is unable to offer data on variance from typical performance levels. The main point based on Delphi results of construction cost variables has been observed 19 effective factors. Finding and Novelty: The RII observed that the most effective aspects of an intelligent building are the number of floors in the building, the kind of structural design, and the size of the shadow cast on the surface of the building. The Multi-Criteria Decision Maker (MCDM) observed significant differences in planned value (PV) and actual value (AC) results. In addition, as a result of the current approach, it is possible to track project costs and timelines more precisely. Doi: 10.28991/CEJ-2023-09-01-010 Full Text: PDF

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“…Thus, the construction industry remains fragmented, primarily caused by the lack of collaboration among practitioners (Kim et al, 2020). This results in a situation where the industry tends to exhibit a "lonely" BIM level 1 maturity, rather than the desired cooperative BIM level 2 maturity that is recommended in the BIM standard (Zahedi et al, 2022). According to Zanni et al (2020), this can be identi ed as the main factor contributing to the performance gap that exists between the simulated sustainability performance of buildings and their actual operational sustainability performance.…”

Section: Camacho Et Al 2023)mentioning

confidence: 99%

The Green BIM Process Model for Efficient Information Exchange in Sustainable Building Design

Ohueri

Masrom

Bamgbade

et al. 2023

Preprint

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The adequate application of Building Information modeling (BIM) in sustainable building design known as green BIM, ensures the exchange of accurate information to reduce the buildings' carbon emissions and enhance the overall sustainability performance. However, a major challenge in sustainable building design is the persistent exchange of inaccurate data, resulting in flawed decisions. This study develops a Green BIM Process Model to explicitly guide the multidiscipline team to use the diverse BIM software to efficiently exchange cumbersome sustainability information. The process model focuses on building massing; fabric and layout optimization; and mechanical electrical & plumbing systems. After a critical literature review, the major components of efficient information exchange in the BIM-based sustainable building design process were established. Then, an in-depth interview was conducted with 26 construction professionals and analyzed using the narrative analysis technique. As a result, the best practices for the holistic coordination of the established major components were ascertained. Afterward, the Green BIM Process Model was developed by using Integrated DEFinition techniques to explicitly model the relationship between the established major components. The novel Green BIM Process Model provides a pragmatic approach that defines how the multidiscipline team can exchange accurate information and in turn, make viable decisions that can enhance the sustainability performance of buildings.

show abstract

BIM-based design decisions documentation using design episodes, explanation tags, and constraints

Cited by 6 publications

References 74 publications

Calculation of embodied GHG emissions in early building design stages using BIM and NLP-based semantic model healing

Calculation of embodied GHG emissions in early building design stages using BIM and NLP-based semantic model healing

Assessment of a Decision-Making Model for Monitoring the Success of a Project for Smart Buildings

The Green BIM Process Model for Efficient Information Exchange in Sustainable Building Design

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