References
- Aound, G., Lee, A., & Wu, S. (2005). From 3D to nD modelling, (Special Issue From 3D to nD). ITcon, 10, pp. 15–16.
- Autodesk. (2019). Navisworks Manage. Available at https://www.autodesk.cz/collections/architecture-engineering-construction/overview on 2019.
- Building, D. (2019). Designning Building Wiki. Available at https://www.designingbuildings.co.uk/wiki/Level_of_detail_for_BIM on 8 May, 2019.
- BuildingSmart. (2019). Building Smart Alliance. Available at https://www.buildingsmart.org/standards/bsi-standards/
- Chantawit, D., Hadicusumo, B., & Charoenngam, C. (2005). 4D CAD-safety: visualizing project scheduling and safety planning. Construction Innovations, 5(2), pp. 99–114.
- Datacomp. (2020). BIMestiMate. Available at https://bimestimate.eu/en/the-theory-of-evolution-bim-3d-7d/ on 2, 2020.
- Hartmann, V., Beucke, K., Shapir, K., & König, M. (2012). Model-based scheduling for construction planning. In: 14th International Conference on Computing in Civil, Moscow.
- Hu, Z., & Zhang, J. (2008). BIM- and 4D-based integrated solution of analysis and management. Automation in Construction, 4(17), pp. 439–449.
- Huhnt, W. (2005). Generating sequences of construction tasks. In: Proceedings of the 22nd and W78 Conference on Information Technology in Construction, Dresden.
- Jarský, Č. (1994). Automatizovaný systém pro tvorbu ofert, stavebně technologických projektů a řízení staveb CONTEC, verze 11.0 - Přebírání údajů z tiskových sestav výkazů výměr a rozpočtů jiných systémů do systému CONTEC, instruktážní a uživatelská příručka. Kralupy n. Vlt: CONTEC.
- Jarský, Č. (2000a). Automatizovaná příprava a řízení realizace staveb, (Automated preparation and management of realization of projects. Kralupy n. Vlt.: CONTEC.
- Jarsky, Č. (2000b). Modelling of the Building Process by a Computer Expert System. Standford University, Stanford California, s.n., pp. 566–573.
- Jarský, Č. (2010). On computer modelling of the building process in construction planning and management. Construction Planning and Management, 2(2), pp. 191–199.
- Jarský, Č. (2011). On computer modeling and utility assessment of building projects. In: s.l., 28th International Symposium on Automation and Robotics in Construction, Seul, Korea.
- Jarský, Č. (2015). Multimediální učebnice Příprava a realizace objektů a staveb - Multimedia lectures of construction technology. Available at http://technologie.fsv.cvut.cz/aitom/podklady/online-priprava-demo/text41.html on 7, 2019.
- Jarský, Č., & Gacho, P. (2014). ON Computer Processing of Safety and Health Plans in Construction. Bratislava, s.n.
- Khoshnava, S. M., Ahankoob, A., Preece, C., & Rostami, R. (2012). Potential Application of BIM in Construction Dispute and Conflict. Kuala Lumpur, Malaysia, s.n.
- König, M., Koch, C., Habenicht, I. & Spieckermann, S., 2012. Intelligent BIM-based construction scheduling using discrete event simulation. Berlin, Proceedings of the 2012 Winter Simulation Conference (WSC).
- Kvirenc, P. (2017). Diploma thesis: Význam BIM protokolu ve výstavbových projektech společnosti Skanska a.s.. ČVUT, Prague.
- Lieyun, D., Ying, Z., & Burcu, A. (2014). Building information modeling (BIM) application framework: The process of expanding from 3D to computable nD. Automation in Construction, 46, pp. 82–93.
- Lu, W., & Olofsson, T. (2014). Building information modeling and discrete event simulation: Towards an integrated framework. Automation in Construction, 44, pp. 73–83.
- Matějka, P. (2016). BIM execution plan in Czech Republic. Journal B&IT, VI(2), pp. 17–23.
- NBS, T. (2015). The National Building Specification. Available at https://www.thenbs.com on 20 March, 2019.
- Russell, A., Staub-French, S., Tran, N., & Wong, W. (2009). Visualizing high-rise building construction strategies using linear scheduling and 4D CAD. Automation in Construction, 18, p. 219–236.
- Sacks, R., & Barak, R. (2008). Impact of three-dimensional parametricmodeling of building on. Automation in Construction, 4(17), p. 439–449.
- Schinler, D., & Nelson, E. (2008). BIM and the structural engineering community. Structure, 12, pp. 10–12.
- Sigalov, K., & König, M. (2017). Recognition of process patterns for BIM-based construction schedules. Advanced Engineering Informatics, 33, pp. 456–472.
- Veng, I. L. (2019). Learning Revit. Available at https://learning-revit.com/what-is-a-family/ on 3 May, 2019.
- Vitásek, S., & Žák, J. (2018). BIM for cost estimation. Košice, s.n.
- Vrána, P. (1999). APSTA - Datová základna pro přípravu a řízení staveb, instruktážní příručka. NETDATA, Prague.
- Wang, H.-W., Lin, J., & Zhang, J. (2020). Work package-based information modeling for resource-constrained scheduling of construction projects. Automation in construction, Januarz. Issue 109.