[1] Liao, T. W., Egbelu, P. J., Sarker, B. R., & Leu, S. S. (2011). Metaheuristics for project and construction management–A state-of-the-art review. Automation in construction, 20(5), 491-505.
[2] Li, H., & Love, P. E. (2000). Genetic search for solving construction site-level unequal-area facility layout problems. Automation in construction, 9(2), 217-226.
[3] Li, H., & Love, P. E. (1998). Site-level facilities layout using genetic algorithms. Journal of computing in civil engineering, 12(4), 227-231.
[4] Andayesh, M., & Sadeghpour, F. (2014). The time dimension in site layout planning. Automation in construction, 44, 129-139.
[5] Sadeghpour, F., & Andayesh, M. (2015). The constructs of site layout modeling: an overview. Canadian journal of civil engineering, 42(3), 199-212.
[6] Yeh, I. C. (1995). Construction-site layout using annealed neural network. Journal of computing in civil engineering, 9(3), 201-208.
[7] Li, H., & Love, P. E. (2000). Genetic search for solving construction site-level unequal-area facility layout problems. Automation in construction, 9(2), 217-226.
[8] Tam, C. M., Tong, T. K., & Chan, W. K. (2001). Genetic algorithm for optimizing supply locations around tower crane. Journal of construction engineering and management, 127(4), 315-321.
[9] Tam, C. M., Tong, T. K., Leung, A. W., & Chiu, G. W. (2002). Site layout planning using nonstructural fuzzy decision support system. Journal of construction engineering and management, 128(3), 220-231.
[10] Cheung, S. O., Tong, T. K. L., & Tam, C. M. (2002). Site pre-cast yard layout arrangement through genetic algorithms. Automation in Construction, 11(1), 35-46.
[11] [11] H. Zhang, J.Y. Wang, Particle swarm optimization for construction site unequal-area layout, Journal of construction engineering and management, 134 (2008) 739-748.
[12] Lien, L. C., & Cheng, M. Y. (2012). A hybrid swarm intelligence based particle-bee algorithm for construction site layout optimization. Expert systems with applications, 39(10), 9642-9650.
[13] Gharaie, E., Afshar, A., & Jalali, M. R. (2006, February). Site layout optimization with ACO algorithm. Proceedings of the 5th WSEAS international conference on artificial intelligence, knowledge engineering and data bases (pp. 90-94). World Scientific and Engineering Academy and Society (WSEAS).
[14] Calis, G., & Yuksel, O. (2015). An improved ant colony optimization algorithm for construction site layout problems. Journal of building construction and planning research, 3(04), 221.
[15] Kaveh, A., Khanzadi, M., Alipour, M., & Moghaddam, M. R. (2016). Construction site layout planning problem using two new meta-heuristic algorithms. Iranian journal of science and technology, transactions of civil engineering, 40(4), 263-275.
[16] Kirkpatrick, S., Gelatt, C. D., & Vecchi, M. P. (1983). Optimization by simulated annealing. science, 220(4598), 671-680.
[17] Abbasi, B., Shadrokh, S., & Arkat, J. (2006). Bi-objective resource-constrained project scheduling with robustness and makespan criteria. Applied mathematics and computation, 180(1), 146-152.
[18] Park, M. W., & Kim, Y. D. (1998). A systematic procedure for setting parameters in simulated annealing algorithms. Computers & operations research, 25(3), 207-217.
[19] Kaveh, A., & Rastegar Moghaddam, M. (2018). A hybrid WOA-CBO algorithm for construction site layout planning problem. Scientia iranica, 25(3), 1094-1104.