Open Access
MATEC Web Conf.
Volume 222, 2018
3rd International Workshop on Flexibility in Sustainable Construction (ORSDCE 2018)
Article Number 01007
Number of page(s) 9
Published online 29 October 2018
  1. Ballesteros-Pérez, P.; Smith, S. T.; Lloyd-Papworth, J. G.; Cooke, P. Incorporating the effect of weather in construction scheduling and management with sine wave curves: application in the United Kingdom. Constr. Manag. Econ., 85, 1–17, (2018) doi: 10.1080/01446193.2018.1478109. [CrossRef] [Google Scholar]
  2. Ballesteros-Pérez, P.; Rojas-Céspedes, Y. A.; Hughes, W.; Kabiri, S.; Pellicer, E.; Mora-Melià, D.; del Campo-Hitschfeld, M. L. Weather-wise: A weather-aware planning tool for improving construction productivity and dealing with claims. Autom. Constr., 84, 81–95, (2017) doi: 10.1016/j.autcon.2017.08.022. [CrossRef] [Google Scholar]
  3. M. Pawelska-Mazur Warunki betonownia w obniżonych temperaturach na przykładzie Pomorza. Przegląd Bud., R. 82, nr, 25–29, (2011). [Google Scholar]
  4. Andrzejczak, K.; Karlowski, A.; Paslawski, J. O. Flexible management for concrete curing at low temperature based on learning from cases. 34th Int. Symp. Autom. Robot. Constr. ISARC 2017, 112–119, (2017), doi: 10.22260/ISARC2017/0015. [Google Scholar]
  5. Pasławski, J. Elastyczność w zarządzaniu realizacją procesów budowlanych; Wydawnictwo Politechniki Poznańskiej, (Poznań 2009) [Google Scholar]
  6. Maria, A. Proceedings of the 1997 Winter Simulation Conference., 7–13, (1997). [Google Scholar]
  7. AbouRizk, S.; Halpin, D.; Mohamed, Y.; Hermann, U. Research in Modeling and Simulation for Improving Construction Engineering Operations. J. Constr. Eng. Manag., 137, 843–852, (2011) doi: 10.1061/(ASCE)CO.1943-7862.0000288. [Google Scholar]
  8. Daniel W. Halpin, L. S. R. Planning and Analysis of Construction Operations; John Wiley & Sons, (1992); ISBN 0-471-55510-X. [Google Scholar]
  9. Grigoryev, I. AnyLogic 8 in Three Days. (2018), doi: 978 92 4 150215 3. [Google Scholar]
  10. Dawood, N.; Sriprasert, E.; Mallasi, Z.; Hobbs, B. Development of an integrated information resource base for 4D/VR construction processes simulation. Autom. Constr., 12, 123–131, (2003), doi: 10.1016/S0926-5805(02)00045-6. [CrossRef] [Google Scholar]
  11. Ioannou, P. G.; Martinez, J. C. Simulation of complex construction processes. In Proceedings of the 28th conference on Winter simulation - WSC ’96; ACM Press: New York, New York, USA, 1321–1328, (1996). [Google Scholar]
  12. Lu, M.; Wong, L. C. Comparing promodel and sdesa in modeling construciton operations. Proc. - Winter Simul. Conf., 1524–1532, (2005), doi: 10.1109/WSC.2005.1574420. [Google Scholar]
  13. Kapliński, O. Modeling Construction Processes: a Review of Research and Disserations at the Poznan University of Technology. Civ. Environ. Eng. Reports, 85-105, (2005) [Google Scholar]
  14. Dimyadi, J.; Amor, R.; Spearpoint, M.; Compliant, C.; Practice, D. Using BIM to Support Simulation of Compliant Building Evacuation. Proc. 11th Eur. Conf. Prod. Process Model. (ECPPM 2016), 511–518, (2016). [Google Scholar]
  15. Dziadosz, A.; Konczak, A. Decision-making process in the construction industry. Arch. Civ. Eng., 62, 111–126, (2016). [CrossRef] [Google Scholar]

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