Share:


Analysis of the BIM-M data model application

Abstract

The article analyses implementation of BIM-M (Building Information Modeling for Masonry) into the BIM (Building Information Modeling) project to ensure the preparation of the masonry project. The BIM-M model consists of a masonry database, a masonry unit model, a masonry unit database model, and masonry unit model definition and BIM masonry wall definition model. The case study proposes a BIM-M model for cavity wall, masonry structures involving project stakeholders and ensuring the exchange of information at the design stage CAD (Computer Aided Design) with the ability to transfer information to other life cycles CAM (Computer Aided Manufacturing) and CAE (Computer Aided Engineering).


Article in Lithuanian.


BIM-M duomenų modelio taikymo analizė


Santrauka


Straipsnyje analizuojamas BIM-M (angl. Building Information Modeling for Masonry) integravimas į BIM (angl. Building Information Modeling) projektą, siekiant užtikrinti racionalų mūro darbo projekto dalies rengimą. BIM-M modelį sudaro mūro elementų duomenų bazė, mūro elementų modelis, mūro elementų duomenų bazės modelis ir mūro elementų bei mūro sienos BIM schema. Tyrime siūlomas BIM-M modelis, kuris skirtas apdailos mūro trisluoksniams fasadams, mūrinių konstrukcijų, vidinių mūrinių pertvarų ir objektų, susijusių su mūru, etapų gyvavimo ciklui vaizduoti, įtraukiant suinteresuotus projekto dalyvius ir užtikrinant keitimąsi informacija projektavimo etape CAD (angl. Computer Aided Design) su galimybe perduoti informaciją į kitus gyvavimo ciklus CAM (angl. Computer Aided Manufacturing) ir CAE (angl. Computer Aided Engineering).


Reikšminiai žodžiai: BIM, BIM-M, duomenų modelis, mūro konstrukcijos.

Keyword : BIM, BIM-M, data model, masonry structures

How to Cite
Zigmund, V., Antuchevičienė, J., & Migilinskas, D. (2021). Analysis of the BIM-M data model application. Mokslas – Lietuvos Ateitis / Science – Future of Lithuania, 13. https://doi.org/10.3846/mla.2021.13797
Published in Issue
Jan 26, 2021
Abstract Views
523
PDF Downloads
418
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

References

Afsari, K., & Eastman, C. (2014). Categorization of building product models in BIM Content Library portals. Blucher Design Proceedings, 1(8), 370–374. https://doi.org/10.5151/despro-sigradi2014-0074

Gentry, T. R., Sharif, S., Cavieres, A., & Biggs, D. (2016). BIM schema for masonry units and walls. In C. M. F. da Porto, & M. R. Valluzzi (Eds), Brick and block masonry – trends, innovations and challenges. CRC Press. https://doi.org/10.1201/b21889-78

Madone, M., Norberg, A., Wenger, J., Kinateder, M., Davenport, E., Hester, S., Kendellen, K., Weinbrenner, C., & Smith, J. (2016). BIM-M building information modeling for masonry. BIM deliverables guide for masonry contractors volume II. National Concrete Masonry Association on behalf of BIM-M. https://businessdocbox.com/Construction/69640013-Bimdeliverables-guide-for-masonry-contractors-volume-ii.html

Popov, R., Shipilova, N., Sekisov, A., Solovyova, Y., & Gura, D. (2019). Innovative development of construction in Russia: economics, technologies, management. Amazonia Investiga, 8(19), 653–663.

Sharif, S., Gentry, T. R., Eastman, C., & Edler, J. (2015). Masonry unit database development for BIM-Masonry [Conference presentation]. 12th North American Masonry Conference Masonry, Denver, Colorado.

Zigmund, V. ir Migilinskas, D. (2017). BIM metodologijos taikymo fasado mūro konstrukcijoms analizė [Analysis of BIM methodology application for masonry facade constructions]. Mokslas – Lietuvos ateitis: Statyba, transportas, aviacinės technologijos [Science – Future of Lithuania: Civil and transport engineering, aviation technologies], 9(5), 531–535. https://doi.org/10.3846/mla.2017.1085