References
- Cheng, M. Y., & O’Connor, J. T. (1996). ArcSite: Enhanced GIS for construction site layout. Journal of Construction Engineering and Management, 122(4), pp. 329–336.
- Drezner, Z. (1995). Replacing continuous demand with discrete demand. Naval Research Logistics, 44, pp. 81–95.
- Friedrich, C. J. (1929). Alfred Weber's Theory of the Location of Industries, 3rd edn. The University of Chicago Press, Chicago.
- Hegazy, T., & Elbeltagi, E. (1999). EvoSite: Evolution-based model for site layout planning. Journal of Computing in Civil Engineering, 13(3), pp. 198–206.
- Hesham, M. O., Maged, E. G., & Moheeb, E. I. (2003). A hybrid CAD-based construction site layout planning system using genetic algorithms. Automation in Construction, 12, pp. 749–764.
- Kumar, S. S., & Cheng, J. C. P. (2015). A BIM-based automated site layout planning framework for congested construction sites. Automation in Construction, 59, pp. 24–37.
- Li, H., & Love, P. E. D. (1998). Site-level facilities layout using genetic algorithms. J. Computing in Civil Engineering, 12(4), pp. 227–231.
- Mawdesley, M. J., Al-jibouri, S. H., & Yang, H. (2002). Genetic algorithm for construction site layout in project planning. Journal of Construction Engineering and Management, 128(5), pp. 418–426.
- Moore, J. (1980). Computer method in facility layout. Industrial Engineering, 12(9), pp. 82–93.
- Ning, X., Lam, K.-C., & Lam, M. C.-K. (2010). Dynamic construction site layout planning using max-min ant system. Automation in Construction, 19, pp. 55–65.
- Pém, A. (2009). Az anyagdepó-elhelyezés optimalizálásának modelljei. 12. Projektmenedzsment Fórum, Budapest, Hungary, pp. 231–237. Paper 13. ISBN: 978-963-8111-70-8.
- Pém, A., & Mályusz, L. (2015). Model of arrangement of final material depots for concave construction sites in CSLP. Procedia Engineering, 123, pp. 388–396.
- Pém, A., & Mályusz, L. (2016). Arrangement of material depots at construction site by using continuous conditions. In: Creative Construction Conference Proceedings. Diamond Congress Ltd, Budapest, Hungary, pp. 323–328. ISBN: 978-963-8111-70-8.
- Sadeghpour, F., & Andayesh, M. (2015). The constructs of site layout modeling: An overview. Canadian Journal of Civil Engineering, 42(3), pp. 199–212.
- Sadeghpour, F., Moselhi, O., & Alkass, T. S. (2004). A CAD-based model for site planning. Automation in Construction, 13, pp. 701–715.
- Sadeghpour, F., Moselhi, O., & Alkass, T. S. (2006). Computer-aided site layout planning. Journal of Construction Engineering and Management, 132(2), pp. 143–151.
- Sanad, H. M., Ammar, M. A., & Ibrahim, M. E. (2008). Optimal construction site layout considering safety and environmental aspects. Journal of Construction Engineering and Management, 134(7), pp. 536–544.
- Tam, C. M., & Tong, T. K. L. (2003). GA-ANN model for optimizing the locations of tower crane and supply points for high-rise public housing construction. Construction Management and Economics, 21(3), pp. 257–266.
- Tommelein, I. D., Lewitt, R. E., & Hayes-Roth, B. (1992). SightPlan model for site layout. Journal of Construction Engineering and Management, 118(4), pp. 749–766.
- Voronoi, G. (1908). Nouvelles applications des paramètres continus à la théorie des formes quadratique. Journal für die Reine und Angewandte Mathematik, 133, pp. 97–178.
- Winch, G. M., & North, S. (2006). Critical space analysis. Journal of Construction Engineering and Management, 132(5), pp. 473–481.
- Zouein, P. P., & Tommelein, I. D. (1999). Dynamic layout planning using a hybrid incremental solution method. Journal of Construction Engineering and Management, 125(6), pp. 400–408.