After successful completion of the course, students are able to plan and control the project dates and construction costs for architectural projects. They deepen the methods of scheduling and cost planning in construction.
Scheduling, resource planning, network planning technique; path-time / time-performance / time-volume diagrams, 4D-BIM, time management within the planning and construction phases. Cost planning according to ÖN B 1801.1 and DIN 276, digital quantity determination, 5D-BIM, element cost calculation, life cycle costing according to ÖN B 1801.2, cost management during the planning and construction phases, performance cost calculation, planning and management of target costs.
Consultation hours: Friday, 08:30 to 10:00 by arrangement, via ZOOM
Architekt Dipl.Ing. Berndt Simlinger: b.simlinger@simlinger.com 0676 / 314 20 20
DIN 69900 - Projektmanagement, Netzplantechnik.
ÖN B 1800, ÖN B 1801.1, ÖN B 1801.2, DIN 276, DIN 277, DIN 18960.
Software "Projektmanagement", CAD- und 3D-Architektur-/Graphik-Programme.
Software "Projektmanagement" und "Netzplantechnik".
Oberndorfer, Wolfgang (Hg.): Organisation & Kosten-Controlling von Baupreisen, Manz, Wien, 2007.
Priebernig, Heinz: Terminplanung . Netzplantechnik (Kap. 05) und Kostenplanung (Kap. 08), in: KONSTRUIEREN + BAUEN, TU-Verlag, www.tuverlag.at, ISBN 978-3-903024-09-0, Wien, 2015.
Fröhlich, Peter J.: Hochbaukosten - Flächen - Rauminhalte, Vieweg, Wiesbaden, 2004.
Seeling, Reinhard: Projektsteuerung im Bauwesen, Teubner, Stuttgart, 1996.
Noosten, Dirk: Netzplantechnik, Springer Vieweg, Wiesbaden, 2013.
Siemeon, Klaus D.: Baukostenplanung und -steuerung bei Neu- und Umbauten, Springer Vieweg, Wiesbaden, 2016.
Bachelors degree in architecture or civil engineering, industrial engineering, spatial planning or similar.
Basic knowledge of network technique and cost planning according to ÖN B 1801.1 or DIN 276.
3D-CAD and 3D-graphic- and BIM-programmes.