Implementation of the international standard ISO 16739-1 in Ukraine as a terminological basis of BIM-technologies
Abstract
The article considers the structure and content of the international standard ISO 16739-1:2018 "Industry Foundation Classes (IFC) for data sharing in the construction and facility management industries - Part 1: Data schema".
Based on the analysis, it is concluded that this standard is crucial for the introduction of BIM technologies in the construction industry.
The terminology of the ISO 16739-1: 2018 standard covers almost the entire construction industry (more than three thousand concepts). For all standardized concepts, open software specifications are provided, which allow the exchange of data between software tools designed for different functional areas related to construction (planning, design, personnel management, financial and material flows). Definitions and descriptions of general technical and narrowly special concepts are given, which are supported by schemes of interrelations between them through a certain system of parameters (attributes). For the effective implementation of building information modeling, it is necessary that all participants in the construction process clearly understand and be fluent in the terminology of ISO 16739-1:2018.
The Ministry of Regional Development of Ukraine has decided to adopt the national standard ДСТУ EN ISO 16739-1:20XX (EN ISO 16739-1:2020, IDT) by confirming the English-language international document EN ISO 16739-1:2020 (ISO 16739-1:2018), which is provided to users only in electronic form in HTML format.
To facilitate the implementation of the standard in Ukraine and its application by a wide range of designers, builders, specialists in investment management, operation and maintenance of real estate, NIISK proposed to develop a national textbook (guide) to the standard, which serves as a terminological basis for BIM technology, explanation in Ukrainian of all concepts, essences, properties, rules, functions, attributes of the data scheme, which are contained in the English paperless standard ISO 16739-1:2018.
Downloads
References
S. Azhar. (2011). Building Information Modelling (BIM): Trends, Benefits, Risks, and Challenges for the AEC Industry. Leadership and Management in Engineering, Volume 11, Issue Retrieved from: https://ascelibrary.org/doi/full/10.1061/%28ASCE%29LM.1943-5630.0000127
D. Isaenko. (2021). Building Information Modeling: Why Your New Home Needs a "Digital Double" Retrieved from https://news.obozrevatel.com/ukr/economics/economy/building-information-modeling-chomuvashomu-novomu-budinku-potriben-tsifrovijdvijnik.htm
Sacks R, Gurevich U, Shrestha P (2016). A review of building information modeling protocols, guides and standards for large construction clients, ITcon, 21, 479-503. Retrieved from https://www.itcon.org/2016/29
Tan, T; Chen, K; Xue, F; Lu, W; (2019) Barriers to Building Information Modeling (BIM) implementation in China's prefabricated construction: An interpretive structural modeling (ISM) approach. Journal of Cleaner Production , 219, 949-959.
URL: https://www.iso.org/standard/70303.html
Industrial automation systems and integration. Product data representation and exchange Part 11: Description methods: The EXPRESS language reference manual.
Autodesk Revit IFC manual. Detailed instructions for handling IFC files. Retrieved from https://damassets.autodesk.net/content/dam/autodesk/draftr/2528/180213_IFC_Handbuch.pdf
Abstract views: 397 PDF Downloads: 153
Copyright (c) 2021 G.G. Farenyuk, N.D. Gakh, O.M. Lisenyi, Yu. S. Slyusarenko
This work is licensed under a Creative Commons Attribution 4.0 International License.
.png){kind=logo}
