Objectives and competences
The objective of the course is to implement BIM approach as part of a real built environment project.
Content (Syllabus outline)
- Digital data for building and infrastructure object projects (digital terrain model, ortho-photos, digital model of the city, clouds of 3D points).
- Technical specifications and BIM standards for infrastructure objects (LandXML, OpenINFRA, IFC (ifcBridge, ifcRoad)).
- BIM software for infrastructure objects (BIM tools for parametric modeling infrastructure: Autodesk Infraworks, Civil 3D, Navisworks, Subassembly Composer, programming (if necessary)).
- BIM software for building objects (BIM tools for parametric modeling of buildings: Allplan, Autodesk Revit, ArhiCAD, Ecotec, Infraworks, MS Project, Navisworks, Rhino / Grasshoper).
- BIM Project: design and implementation of BIM model for buildings and/or civil engineering (infrastructure) objects. Projects are / will be obtained in collaboration with industry.
Learning and teaching methods
• lectures,
• lab work.
Intended learning outcomes - knowledge and understanding
Students are able to:
• define requirements for the use of BIM technologies in an AEC project
• select BIM software tools
• setup a BIM-project
• Implement BIM approach
Readings
Osnovna/Basic:
• Borrmann, A., König, M., Koch, C., Beetz, J., Building Information Modeling, Technologische Grundlagen und industrielle Praxis, Springer 2015.
• Eastman, C., Teicholz, P., Sacks, R., & Liston, K. (2011). BIM Handbook: A Guide to Building Information Modeling for Owners, Managers, Designers, Engineers and Contractors. Building (Vol. 2, p. 650). doi:10.1002/9780470261309
• Deutsch R., BIM and Integrated Design: Strategies for Architectural Practice, 2011.
• BuildingSMART-International. (2013). Industry Foundation Classes (IFC) data model — buildingSMART, https://www.buildingsmart.org/standards/bsi-standards/industry-foundation-classes/
Prerequisits
Recommended knowledge from fields of: fundamentals of computer science, building information models (BIM).
