How to cite this paper
Rossit, D., Tohmé, F., Frutos, M & Broz, D. (2017). An application of the augmented ε-constraint method to design a municipal sorted waste collection system.Decision Science Letters , 6(4), 323-336.
Refrences
Badran, M. F., & El-Haggar, S. M. (2006). Optimization of municipal solid waste management in Port Said–Egypt. Waste Management, 26(5), 534-545.
Benes, E., & Milmanda, B. F. (2012). El nuevo liderazgo sindical en la Argentina postneoliberal: el caso del gremio de camioneros. Desarrollo Económico: Revista de Ciencias Sociales, 52(205), 31-62.
Bonomo, F., Durán, G., Larumbe, F., & Marenco, J. (2012). A method for optimizing waste collection using mathematical programming: a Buenos Aires case study. Waste Management & Research, 30(3), 311-324.
Broz, D., Rossit, D. A., Rossit, D. G., & Cavallin, A. (2016). Challenge in supply chains management in Argentina: The case of forestry-industrial sector. In Proceedings of the 8th International Conference on Production Research ICPR-AMERICAS'2016. Valparaíso, Chile.
Caramia, M., & Dell´ Olmo, P. (2008). Multi-objective optimization. In their Multi-objective Management in Freight Logistics: Increasing Capacity, Service Level and Safety with Optimization Algorithms, Springer Science & Business Media, Berlin, 11-36.
Crespo, F. A., & Paredes, R. D. (2009). A mechanism for efficient and fair NIMBY location. DYNA, 76(160), 293-303.
Coutinho-Rodrigues, J., Tralhão, L., & Alçada-Almeida, L. (2012). A bi-objective modeling approach applied to an urban semi-desirable facility location problem. European Journal of Operational Research, 223(1), 203-213.
Di Felice, P. (2014a). Integration of spatial and descriptive information to solve the urban waste accumulation problem. Procedia-Social and Behavioral Sciences, 147, 182-188.
Di Felice, P. (2014b). Integration of spatial and descriptive information to solve the urban waste accumulation problem: A pilot study. Procedia-Social and Behavioral Sciences, 147, 592-597.
Erkut, E., Karagiannidis, A., Perkoulidis, G., & Tjandra, S. A. (2008). A multicriteria facility location model for municipal solid waste management in North Greece. European Journal of Operational Research, 187(3), 1402-1421.
Ferri, G. L., Chaves, G. D. L. D., & Ribeiro, G. M. (2015). Analysis and location of urban solid waste collection/inspection centers for a reverse logistics network: a case study in São Mateus-ES. Production, 25(1), 27-42.
Gandara, M. P., & Guerrero, E. M. (2013). Indicadores ambientales para la gestión de los residuos sólidos domiciliarios en Rosario, Argentina. DELOS, 6(16).
Ghiani, G., Laganà, D., Manni, E., Musmanno, R., & Vigo, D. (2014a). Operations research in solid waste management: A survey of strategic and tactical issues. Computers & Operations Research, 44, 22-32.
Ghiani, G., Manni, A., Manni, E., & Toraldo, M. (2014b). The impact of an efficient collection sites location on the zoning phase in municipal solid waste management. Waste Management, 34(11), 1949-1956.
Ghiani, G., Laganà, D., Manni, E., & Triki, C. (2012). Capacitated location of collection sites in an urban waste management system. Waste management, 32(7), 1291-1296.
Henry J. G. (1999). Residuos Sólidos. In Henry J. G. & Heinke G. W. (Eds) Ingeniería Ambiental, Pearson Educación, México, pp 567-619.
Hoornweg, D., & Bhada-Tata, P. (2012). What a waste: a global review of solid waste management. Urban Development Series Knowledge Papers, 15, 1-98.
Hui, Y., Li’ao, W., Fenwei, S., & Gang, H. (2006). Urban solid waste management in Chongqing: Challenges and opportunities. Waste management, 26(9), 1052-1062.
Hwang, C. L., & Masud, A. S. M. (2012). Multiple objective decision-making methods and applications: a state-of-the-art survey (Vol. 164). Berlin: Springer Science & Business Media.
Mavrotas, G. (2009). Effective implementation of the ε-constraint method in multi-objective mathematical programming problems. Applied Mathematics and Computation, 213(2), 455-465.
Mavrotas, G., & Florios, K. (2013). An improved version of the augmented ε-constraint method (AUGMECON2) for finding the exact pareto set in multi-objective integer programming problems. Applied Mathematics and Computation, 219(18), 9652-9669.
Mavrotas, G., Gakis, N., Skoulaxinou, S., Katsouros, V., & Georgopoulou, E. (2015). Municipal solid waste management and energy production: Consideration of external cost through multi-objective optimization and its effect on waste-to-energy solutions. Renewable and Sustainable Energy Reviews, 51, 1205-1222.
Méndez M., Álamo A., Frutos M., & Aguasca R. (2014). Métodos. Agregación. In their Fundamentos de ayuda multicriterio a la decisión, CEANI, Las Palmas de Gran Canaria, pp 24-33.
Ministry of Environment and Sustainable Development of Argentina, MADS (2016). “Mapas Críticos Gestión de Residuos Marzo 2016”. Retrieved from: http://observatoriorsu.ambiente.gob.ar/estadisticas [online, date consulted: 6th March 2017].
Parrot, L., Sotamenou, J., & Dia, B. K. (2009). Municipal solid waste management in Africa: Strategies and livelihoods in Yaoundé, Cameroon. Waste management, 29(2), 986-995.
Pérez-Salazar, M. D. R., Mateo-Díaz, N. F., García-Rodríguez, R., Mar-Orozco, C. E., & Cruz-Rivero, L. (2015). A genetic algorithm to solve a three-echelon capacitated location problem for a distribution center within a solid waste management system in the northern region of Veracruz, Mexico. DYNA, 82(191), 51-57.
Poletto, M., De Mori, P. R., Schneider, V. E., & Zattera, A. J. (2016). Urban solid waste management in Caxias do Sul/Brazil: practices and challenges. Journal of Urban and Environmental Engineering, 10(1), 50-56.
Pradhan, P. K., Mohanty, C. R., Swar, A. K., & Mohapatra, P. (2012). Urban solid waste management of Guwahati city in north-east India. Journal of Urban and Environmental Engineering, 6(2), 67-73.
PLAPIQUI UNS-CONICET (2013). Análisis Estadístico de los Residuos Sólidos Domiciliarios de Bahía Blanca.
Rossit, D. G., Broz, D., Rossit, D. A., Frutos, M. and Tohmé, F. (2015), Una herramienta logística para la localización de contenedores de residuos separados en origen. In Mazzeo, N. M. & Muzlera Klappenbach, A. (Eds) Avances en Gestión Integral de Residuos Sólidos Urbanos 2014-2015, INTI, Buenos Aires, pp.50-69.
Salemi, H. (2016). A hybrid algorithm for stochastic single-source capacitated facility location problem with service level requirements. International Journal of Industrial Engineering Computations, 7(2), 295-308.
Tralhão, L., Coutinho-Rodrigues, J., & Alçada-Almeida, L. (2010). A multiobjective modeling approach to locate multi-compartment containers for urban-sorted waste. Waste Management, 30(12), 2418-2429.
Trisna, T., Marimin, M., Arkeman, Y., & Sunarti, T. (2016). Multi-objective optimization for supply chain management problem: A literature review. Decision Science Letters, 5(2), 283-316.
Troschinetz, A. M., & Mihelcic, J. R. (2009). Sustainable recycling of municipal solid waste in developing countries. Waste Management, 29(2), 915-923.
Tufró, V., Chalde, J. I., Campos, R. I., & Pérez Toscani, M. (2012). A local model for a global problem. The case of the city of Salta, Argentina. In Proceedings of the 2012 International Solid Waste Association Congress. Florence, Italy.
Toso, E. A. V., & Alem, D. (2014). Effective location models for sorting recyclables in public management. European Journal of Operational Research, 234(3), 839-860.
Zelany, M. (1974). A concept of compromise solutions and the method of the displaced ideal. Computers & Operations Research, 1(3), 479-496.
Zhang, W., & Reimann, M. (2014). A simple augmented ε-constraint method for multi-objective mathematical integer programming problems. European Journal of Operational Research, 234(1), 15-24.
Zhuang, Y., Wu, S. W., Wang, Y. L., Wu, W. X., & Chen, Y. X. (2008). Source separation of household waste: a case study in China. Waste Management, 28(10), 2022-2030.
Benes, E., & Milmanda, B. F. (2012). El nuevo liderazgo sindical en la Argentina postneoliberal: el caso del gremio de camioneros. Desarrollo Económico: Revista de Ciencias Sociales, 52(205), 31-62.
Bonomo, F., Durán, G., Larumbe, F., & Marenco, J. (2012). A method for optimizing waste collection using mathematical programming: a Buenos Aires case study. Waste Management & Research, 30(3), 311-324.
Broz, D., Rossit, D. A., Rossit, D. G., & Cavallin, A. (2016). Challenge in supply chains management in Argentina: The case of forestry-industrial sector. In Proceedings of the 8th International Conference on Production Research ICPR-AMERICAS'2016. Valparaíso, Chile.
Caramia, M., & Dell´ Olmo, P. (2008). Multi-objective optimization. In their Multi-objective Management in Freight Logistics: Increasing Capacity, Service Level and Safety with Optimization Algorithms, Springer Science & Business Media, Berlin, 11-36.
Crespo, F. A., & Paredes, R. D. (2009). A mechanism for efficient and fair NIMBY location. DYNA, 76(160), 293-303.
Coutinho-Rodrigues, J., Tralhão, L., & Alçada-Almeida, L. (2012). A bi-objective modeling approach applied to an urban semi-desirable facility location problem. European Journal of Operational Research, 223(1), 203-213.
Di Felice, P. (2014a). Integration of spatial and descriptive information to solve the urban waste accumulation problem. Procedia-Social and Behavioral Sciences, 147, 182-188.
Di Felice, P. (2014b). Integration of spatial and descriptive information to solve the urban waste accumulation problem: A pilot study. Procedia-Social and Behavioral Sciences, 147, 592-597.
Erkut, E., Karagiannidis, A., Perkoulidis, G., & Tjandra, S. A. (2008). A multicriteria facility location model for municipal solid waste management in North Greece. European Journal of Operational Research, 187(3), 1402-1421.
Ferri, G. L., Chaves, G. D. L. D., & Ribeiro, G. M. (2015). Analysis and location of urban solid waste collection/inspection centers for a reverse logistics network: a case study in São Mateus-ES. Production, 25(1), 27-42.
Gandara, M. P., & Guerrero, E. M. (2013). Indicadores ambientales para la gestión de los residuos sólidos domiciliarios en Rosario, Argentina. DELOS, 6(16).
Ghiani, G., Laganà, D., Manni, E., Musmanno, R., & Vigo, D. (2014a). Operations research in solid waste management: A survey of strategic and tactical issues. Computers & Operations Research, 44, 22-32.
Ghiani, G., Manni, A., Manni, E., & Toraldo, M. (2014b). The impact of an efficient collection sites location on the zoning phase in municipal solid waste management. Waste Management, 34(11), 1949-1956.
Ghiani, G., Laganà, D., Manni, E., & Triki, C. (2012). Capacitated location of collection sites in an urban waste management system. Waste management, 32(7), 1291-1296.
Henry J. G. (1999). Residuos Sólidos. In Henry J. G. & Heinke G. W. (Eds) Ingeniería Ambiental, Pearson Educación, México, pp 567-619.
Hoornweg, D., & Bhada-Tata, P. (2012). What a waste: a global review of solid waste management. Urban Development Series Knowledge Papers, 15, 1-98.
Hui, Y., Li’ao, W., Fenwei, S., & Gang, H. (2006). Urban solid waste management in Chongqing: Challenges and opportunities. Waste management, 26(9), 1052-1062.
Hwang, C. L., & Masud, A. S. M. (2012). Multiple objective decision-making methods and applications: a state-of-the-art survey (Vol. 164). Berlin: Springer Science & Business Media.
Mavrotas, G. (2009). Effective implementation of the ε-constraint method in multi-objective mathematical programming problems. Applied Mathematics and Computation, 213(2), 455-465.
Mavrotas, G., & Florios, K. (2013). An improved version of the augmented ε-constraint method (AUGMECON2) for finding the exact pareto set in multi-objective integer programming problems. Applied Mathematics and Computation, 219(18), 9652-9669.
Mavrotas, G., Gakis, N., Skoulaxinou, S., Katsouros, V., & Georgopoulou, E. (2015). Municipal solid waste management and energy production: Consideration of external cost through multi-objective optimization and its effect on waste-to-energy solutions. Renewable and Sustainable Energy Reviews, 51, 1205-1222.
Méndez M., Álamo A., Frutos M., & Aguasca R. (2014). Métodos. Agregación. In their Fundamentos de ayuda multicriterio a la decisión, CEANI, Las Palmas de Gran Canaria, pp 24-33.
Ministry of Environment and Sustainable Development of Argentina, MADS (2016). “Mapas Críticos Gestión de Residuos Marzo 2016”. Retrieved from: http://observatoriorsu.ambiente.gob.ar/estadisticas [online, date consulted: 6th March 2017].
Parrot, L., Sotamenou, J., & Dia, B. K. (2009). Municipal solid waste management in Africa: Strategies and livelihoods in Yaoundé, Cameroon. Waste management, 29(2), 986-995.
Pérez-Salazar, M. D. R., Mateo-Díaz, N. F., García-Rodríguez, R., Mar-Orozco, C. E., & Cruz-Rivero, L. (2015). A genetic algorithm to solve a three-echelon capacitated location problem for a distribution center within a solid waste management system in the northern region of Veracruz, Mexico. DYNA, 82(191), 51-57.
Poletto, M., De Mori, P. R., Schneider, V. E., & Zattera, A. J. (2016). Urban solid waste management in Caxias do Sul/Brazil: practices and challenges. Journal of Urban and Environmental Engineering, 10(1), 50-56.
Pradhan, P. K., Mohanty, C. R., Swar, A. K., & Mohapatra, P. (2012). Urban solid waste management of Guwahati city in north-east India. Journal of Urban and Environmental Engineering, 6(2), 67-73.
PLAPIQUI UNS-CONICET (2013). Análisis Estadístico de los Residuos Sólidos Domiciliarios de Bahía Blanca.
Rossit, D. G., Broz, D., Rossit, D. A., Frutos, M. and Tohmé, F. (2015), Una herramienta logística para la localización de contenedores de residuos separados en origen. In Mazzeo, N. M. & Muzlera Klappenbach, A. (Eds) Avances en Gestión Integral de Residuos Sólidos Urbanos 2014-2015, INTI, Buenos Aires, pp.50-69.
Salemi, H. (2016). A hybrid algorithm for stochastic single-source capacitated facility location problem with service level requirements. International Journal of Industrial Engineering Computations, 7(2), 295-308.
Tralhão, L., Coutinho-Rodrigues, J., & Alçada-Almeida, L. (2010). A multiobjective modeling approach to locate multi-compartment containers for urban-sorted waste. Waste Management, 30(12), 2418-2429.
Trisna, T., Marimin, M., Arkeman, Y., & Sunarti, T. (2016). Multi-objective optimization for supply chain management problem: A literature review. Decision Science Letters, 5(2), 283-316.
Troschinetz, A. M., & Mihelcic, J. R. (2009). Sustainable recycling of municipal solid waste in developing countries. Waste Management, 29(2), 915-923.
Tufró, V., Chalde, J. I., Campos, R. I., & Pérez Toscani, M. (2012). A local model for a global problem. The case of the city of Salta, Argentina. In Proceedings of the 2012 International Solid Waste Association Congress. Florence, Italy.
Toso, E. A. V., & Alem, D. (2014). Effective location models for sorting recyclables in public management. European Journal of Operational Research, 234(3), 839-860.
Zelany, M. (1974). A concept of compromise solutions and the method of the displaced ideal. Computers & Operations Research, 1(3), 479-496.
Zhang, W., & Reimann, M. (2014). A simple augmented ε-constraint method for multi-objective mathematical integer programming problems. European Journal of Operational Research, 234(1), 15-24.
Zhuang, Y., Wu, S. W., Wang, Y. L., Wu, W. X., & Chen, Y. X. (2008). Source separation of household waste: a case study in China. Waste Management, 28(10), 2022-2030.