- Enayatifar, R., Yousefi, M., Abdullah, A., & Darus, A. (2013). MOICA: Anovel multi-objective approach based onimperialist competitive algorithm. Applied Mathematics and Computation 219 (2013)8829–8841.
- Safari, H., & Faghih, A. (2014). Solving the Resource-Constrained Project Scheduling Problems (RCPSP) Using Developed Imperialistic Competition Algorithm (DICA).
- Arena, U., & Di Gregorio, F. (2014). A waste management planning based on substance flow analysis. Resources, Conservation and Recycling, 85, 54-66.
- Atanassov, K. (2012). On Intuitionistic Fuzzy Sets Theory.
- Chauhan, A., & Singh, A. (2016). A hybrid multi-criteria decision making method approach for selecting a sustainable location of healthcare waste disposal facility . J. Cleaner Prod. 139, 1001–1010.
- Eiselt, H., & Marianov, V. (2015). Location modeling for municipal solid waste facilities . Comput. Oper. Res. 62, 305–315.
- Enayatifar, R. (2013). MOICA: Anovel multi-objective approach based onimperialist competitive algorithm . Applied Mathematics and Computation 219 (2013)8829–8841.
- Galante, G., Aiello, G., Enea, M., & Panascia, E. (2017). A multi-objective approach to solid waste management . Waste Management, 30(8), 1720-1728.
- Gambella, C., Maggioni, F., & Vigo, D. (2019). A stochastic programming model for a tactical solid waste management problem. Eur. J. Oper. Res. 273 (2), 684–694.
- Ghiani, G., Laganà, D., Manni, E., & Triki, C. (2012). Capacitated location of collection sites in an urban waste management system. Waste Manage. 32 (7), 1291–1296.
- Ghiani, G., Manni, A., Manni, E., & Toraldo, M. (2014). The impact of an efficient collection sites location on the zoning phase in municipal solid waste management. Waste Manage. 34 (11), 1949–1956.
- Habib, M., Sarkar, B., Tayyab, M., Saleem, M., Hussain, A., Ullah, M., et al. (2019). Large-scale disaster waste management under uncertain environment. J.Cleaner Prod. 212, 200–222.
- Hadi nezahd, F., Ramzi, A., & Khaje, M. (2018). Evaluation and comparison of multi-objective meta-heuristic algorithms to solve the optimization problem. No. 8.
- Khadivi, M., & Ghomi, S. (2012). Solid waste facilities location using of analytical network process and data envelopment analysis approaches. Waste Manage. 32(6), 1258–1265.
- Li, Y., & Huang, G. (2012). Robust interval quadratic programming and its application to waste management under uncertainty. Environ. Syst. Res. 1 (1), 1. .
- Lu, H. W., Huang, G. H., He, L., & Zeng, G. M. (2018). An inexact dynamic optimization model for municipal solid waste management in association with greenhouse gas emission control. Journal of environmental management,90(1), 396-409.
- Minciardi, R., Paolucci, M., Robba, M., & Sacile, R. (2017). Multi-objective optimization of solid waste flows: environmentally sustainable strategies for municipalities. Waste Management, 28(11), 2202-2212.
- Muneeb, S., Adhami, A., Jalil, S., & Asim, Z. (2018). Decentralized bi-level decision planning model for municipal solid waste recycling and management with cost reliability under uncertain environment. Sustain. Prod. Consumpt. 16, 33–44.
- Rathore, P., & Sarmah, S. (2019). Modeling transfer station locations considering source separation of solid waste in urban centers: A case study of Bilaspur city India. J. Cleaner Prod. 211, 44–60.
- Sadat Hosseini, M., & Shahbandarzadeh, H. (2019). Designing a multi-objective mathematical model with intuitive fuzzy approach for selecting investment projects (Study of investment opportunities in Bushehr province. Journal of Business Strategies / Shahed University / 26th Year/ No. 14.
- Wang, K., & Yang, Q. (2014). . Hierarchical facility location for the reverse logistics network design under uncertainty. J. Uncertain Syst. 8 (4), 255–270.
- Yadav, V., Bhurjee, A., Karmakar, S., & Dikshit, A. (2017). A facility location model for municipal solid waste management system under uncertain environment. Sci. Total Environ. 603, 760–771.
- Yadav, V., Karmakar, S., Dikshit, A., & Bhurjee, A. (2018). Interval-valued facility location model: An appraisal of municipal solid waste management system. J.Cleaner Prod. 171, 250–263.