Citation:
Ren Yu, Dai Yiming. Improvement of BIM Cooperation Method of Structure Designand Research on Structrual Auto-Calculate-Load-System. Journal of Information Technologyin Civil Engineering and Architecture,
2015, 7(6): 5-10.
doi: 10.16670/j.cnki.cn11-5823/tu.2015.06.02
2015, 7(6): 5-10. doi: 10.16670/j.cnki.cn11-5823/tu.2015.06.02
Improvement of BIM Cooperation Method of Structure Designand Research on Structrual Auto-Calculate-Load-System
Fujian Provincial Institute of Architectural Design and Research, Fuzhou 350001, China |
Current BIM software for structure design is just a simple copy of the original design process. And it doesn't improve the working efficiency. In the age of BIM, the main value of disciplines' cooperation is how to obtain other disciplines'data automatically and efficiently. Through the research on Structural Auto-Calculate-Load-System based on BIM, the author puts forward the following viewpoints: it can improve cooperation efficiency greatly by setting data pre-process module at data exchanging in different disciplines. Furthermore, the pre-process module can reduce the dimension of data exchanging automatically and make auto-identification possible. In summary, it improves the level of BIM application in structure design.
| [1] | |
| [2] |
M. Hassanien Serror, J. Inoue et al. Building on IFC: e-interaction with/within structural design domain[C]. Joint International Conference on Computing and Decision Making in Civil and Building Engineering. Montreal, Canada, 2006:316-325. |
| [3] |
Ayako Yasaka, Hiromi Kataoka et al. The development of the reinforced-concrete structural model on IFC specification[C]. Joint International Conference on Computing and Decision Making in Civil and Building Engineering. Montreal, Canada, 2006:3116-3125. |
| [4] |
Caiyun Wan, Po-Han Chen et al. Assessment of IFCs for structural analysis domain [J]. Journal of Information Technology in Construction, 2004, 9:75-95. |
| [5] |
Kam Calvin, Fischer Martin, et al. Implementation challenges and research needs of the IFC interoperability standard: Experiences from HUT-600 construction pilot[R]. American Society of Civil Engineers. Washington DC, United states 2002. |
| [6] |
Pazlar Tomaz, Turk Ziga. Interoperability in practice: Geometric information exchange using the IFC standard[J].Electronic Journal of Information Technology in Construction, 2008, 13: 362-380. |
| [7] |
Ma, H., Ha, K. M. E., Chung, C. K. J., and Amor, R.Testing semantic interoperability [C]. Joint International Conference on Computing and Decision Making in Civil and Building Engineering. Montreal, Canada, 2006:1216-1225. |
| [8] |
Kiviniemi, A., Tarandi, V., Karlsh, J. et al. Review of the development and implementation of IFC compatible BIM[R]. Europe: Erabuild, 2008. |
| [9] |
Pazlar, T., Turk, Z. Interoperability inpractice: Geometric information exchange using the IFC standard. [J]. Journal of Information Technology in Construction, 2008, 13:362-380. |
| [10] |
Ghang Lee, Jongsung Won et al. Metrics for Quantifying the Similarities and Differences between IFC Files [J].Journal of Computing in Civil Engineering, 2011, 25:172-181.doi: 10.1061/(ASCE)CP.1943-5487.0000077 |
| [11] |
Autodesk Subscription. Revit Structure创建混凝土结构施工图白皮书[K], 2011. |
| [12] | |
| [13] |
赵清清, 刘岩, 王宇.基于BIM的平法施工图表达探讨[J].土木建筑工程信息技术, 2012, 4(2):64-70. |
| [14] |
Autodesk Asia Pte Ltd. Autodesk Revit Structure 2012应用宝典[M].上海:同济大学出版社, 2011:173-203. |
| [15] |
苏骏, 叶红华.基于BIM的设计可视化技术在世博会德国馆中的应用[J].土木建筑工程信息技术, 2009, 1(1):87-90. |
| [16] |
高永刚, 李光金.基于BIM的可视化技术在杭州东站中的应用[J].土木建筑工程信息技术, 2010, 2(4):55-58. |
| [17] |
杨震卿, 张莉莉, 张晓玲等. BIM技术在超高层建筑工程深化设计中的应用[J].建筑技术, 2014, 45(2):115-118. |
| [18] | |
| [19] |
Eastman C. The use of computers instead of drawings [J].AIA, 1975(03): p46-50. |
| [20] |
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