SLO | EN

Objectives and competences

The objective of the course is to present the concept of BIM, role of BIM and technology for BIM

Content (Syllabus outline)

• Introduction to BIM: importance of BIM in the life cycle of the building, the terminology in the field of BIM, how to use BIM as a means of communication and collaboration, benefits of BIM, BIM use cases, metrics for evaluation of BIM in the construction project • Concepts for use of BIM: nD models, from lonely to collaborative (social) BIM, federated BIM, change management, level of detail, collision detection, etc. • Technologies for BIM: parametric models, classification of software for BIM, use of BIM technology in different phases of a construction project, a list of the most common BIM tools, planning and organization of the selection and use of tools for BIM, the definition of the process for the identification and selection of appropriate tools for BIM • Standards for BIM: Data Dictionary for BIM (ISO 12006-3: 2007, IFD), buildingSMART data dictionary, BIM processes (ISO 29481, IDM), data model for BIM (ISO 16739: 2013, IFC) • Demonstration of BIM: demonstration of BIM usage examples throughout lectures and labs

Learning and teaching methods

• lectures, • lab work.

Intended learning outcomes - transferable/key skills and other attributes

Students will be able to: • explain purpose of the building information model (BIM), • understand role of BIM in the life-cycle of the built environment project, • understand concept of information exchange (IFC) between software tools (interoperability), • apply BIM technologies for implementation in AEC projects.

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/ Dodatna/Additional: • Izbrani članki iz / Selected papers from Automation in Construction, Advanced Engineering Informatics, ITCon

Prerequisits

Recommended knowledge from fields: fundamentals of computer science, digital modeling, basics from buildings and/or infrastructure objects, construction management, building technology, building materials

  • red. prof. dr. ANDREJ TIBAUT, univ. dipl. inž. rač. in inf.

  • Seminar work: 50
  • Oral examination: 50

  • : 22
  • : 11
  • : 57

  • Slovenian
  • Slovenian

  • CIVIL ENGINEERING (CIVIL ENGINEERING STRUCTURES AND CONSTRUCTION MANAGEMENT) - 2nd
  • CIVIL ENGINEERING (CIVIL ENGINEERING INFRASTRUCTURE) - 2nd