How to cite this paper
Mortezaei, M & JabalAmeli, M. (2011). A hybrid model for multi-objective capacitated facility location network design problem.International Journal of Industrial Engineering Computations , 2(3), 509-524.
Refrences
Balakrishnan, A., Magnani, T.L., & Wong, R.T. (1989). A dual-ascent procedure for large-scale uncapacitated network design. Operation Research, 37(5), 716-740.
Bazaraa, M. S., Jarvis, J. J., & Sherali, H. D. (1990). Linear programming and network flows. New York: Springer.
Berman, O., Ingco, D.I., Odoni, A.R., (1992). Improving the location of minisum facilities trough network modification. Annals of Operations Research 40(1), 1-16.
Bhadury, J., Gewali, L.P., Chandrasekaran, R., & Badr, M., (2003). Network design subject to facility location. 15th Canadian Conference on Computational Geometry.
Campbell, J.F., (1994). A survey of network hub location. Studies in Locational Analysis 6, 31-49.
Daskin, M.S., & Jones, P.C. (1993). A new approach to solving applied location/allocation Problems. Computer-aided Civil and Infrastructure Engineering, 8(6), 409-421.
Daskin, M.S., Snyder, L.V., & Berger, R.Y.(2005). Facility location in supply chain design. Logistics Systems: Design and Optimization. 39-65.
Drezner, Z., Wesolowsky, G. O. (1998). Design-location problems. INFORMS National Meeting, seattle.
Drezner, Z., & Wesolowsky, G. O. (2003). Network design: selection and design of links and facility location. Transportation Research Part A. 37(3), 241–256.
Friesz, T.L., Shah, S., & Bernstein, D. (1998). Disequilibrium network design: a new paradigm for transportation planning and control. In: Network Infrastructure and the Urban Environment: Advances in Spatial Systems Modeling. Springer, Berlin.
Klincewicz, J.G. (1998). Hub location in backbone/tributary network design: a review. Location Science, 6(1-4), 307-335.
Kirkpatrick S, Gelatt jr. CD, & Vecchi MP. (1983). Optimization by simulated annealing. Science. 220, 671-680.
Laporte, G., (1998). Location-routing problems. In Golden, B.L., Assad, A.A.(Eds), Vehicle Routing: Methods and studies. North-Holland, Amsterdam, 163-198.
Magnanti, T.L. & Wong, R.T. (1984). Network design and transportation planning: models and algorithms. Transportation Science, 18(1), 1-55.
Melkote, S., (1996). Integrated models of facility location and network design. PhD Dissertation. Department of Industrial Engineering and Management Sciences, Northwestern University, Evanston, IL.
Melkote, S., & Daskin, M. S. (2001). An integrated model of facility location and transportation network design. Transportation Research Part A: Policy and Practice, 35(6), 515–538.
Melkote, S., & Daskin, M. S. (2001). Capacitated facility location-network design problems. European Journal of Operational Research, 129(3), 481-495.
Metropolis, N., Rosenbluth, A.W, Rosenbluth, M.N., Teller, A.H, & Teller, E. (1953). Equations of state calculations by fast computing machines. Journal of chemical- physics, 21(6). 1087-1092.
Mitchel, D.H., & Smith, J.M. (2001). Topological network design of pedestrian networks. Transportation Research Part B: Methodological, 35(2), 107–135.
Peeters, D., & Thomas,I. (1995). The effect of spatial structure on p-median results. Transportation Science, 29(4), 366-373.
Pardalos, P.M., & Du, D. (1998). Network design: Connectivity and facilities location. In: DIMACS Series in Discrete Mathematics and Theoretical Computer Science, 40. American Mathematical Society.
Ravi, R., & Sinha, A. (2006). Approximation algorithms for problems combining facility location and network design. Operations Research. 54. 73–81
Solanki, R.S., Gorti, J.K., & Southworth, F. (1998). Using decomposition in large-scale highway network design with a quasi-optimization heuristic. Transportation Research Part B: Methodological ,32(2), 127–140.
Yang, H. (1998). Models and algorithms for road network design: a review and some new developments. Transport Reviews 18(3), 257–278.
Bazaraa, M. S., Jarvis, J. J., & Sherali, H. D. (1990). Linear programming and network flows. New York: Springer.
Berman, O., Ingco, D.I., Odoni, A.R., (1992). Improving the location of minisum facilities trough network modification. Annals of Operations Research 40(1), 1-16.
Bhadury, J., Gewali, L.P., Chandrasekaran, R., & Badr, M., (2003). Network design subject to facility location. 15th Canadian Conference on Computational Geometry.
Campbell, J.F., (1994). A survey of network hub location. Studies in Locational Analysis 6, 31-49.
Daskin, M.S., & Jones, P.C. (1993). A new approach to solving applied location/allocation Problems. Computer-aided Civil and Infrastructure Engineering, 8(6), 409-421.
Daskin, M.S., Snyder, L.V., & Berger, R.Y.(2005). Facility location in supply chain design. Logistics Systems: Design and Optimization. 39-65.
Drezner, Z., Wesolowsky, G. O. (1998). Design-location problems. INFORMS National Meeting, seattle.
Drezner, Z., & Wesolowsky, G. O. (2003). Network design: selection and design of links and facility location. Transportation Research Part A. 37(3), 241–256.
Friesz, T.L., Shah, S., & Bernstein, D. (1998). Disequilibrium network design: a new paradigm for transportation planning and control. In: Network Infrastructure and the Urban Environment: Advances in Spatial Systems Modeling. Springer, Berlin.
Klincewicz, J.G. (1998). Hub location in backbone/tributary network design: a review. Location Science, 6(1-4), 307-335.
Kirkpatrick S, Gelatt jr. CD, & Vecchi MP. (1983). Optimization by simulated annealing. Science. 220, 671-680.
Laporte, G., (1998). Location-routing problems. In Golden, B.L., Assad, A.A.(Eds), Vehicle Routing: Methods and studies. North-Holland, Amsterdam, 163-198.
Magnanti, T.L. & Wong, R.T. (1984). Network design and transportation planning: models and algorithms. Transportation Science, 18(1), 1-55.
Melkote, S., (1996). Integrated models of facility location and network design. PhD Dissertation. Department of Industrial Engineering and Management Sciences, Northwestern University, Evanston, IL.
Melkote, S., & Daskin, M. S. (2001). An integrated model of facility location and transportation network design. Transportation Research Part A: Policy and Practice, 35(6), 515–538.
Melkote, S., & Daskin, M. S. (2001). Capacitated facility location-network design problems. European Journal of Operational Research, 129(3), 481-495.
Metropolis, N., Rosenbluth, A.W, Rosenbluth, M.N., Teller, A.H, & Teller, E. (1953). Equations of state calculations by fast computing machines. Journal of chemical- physics, 21(6). 1087-1092.
Mitchel, D.H., & Smith, J.M. (2001). Topological network design of pedestrian networks. Transportation Research Part B: Methodological, 35(2), 107–135.
Peeters, D., & Thomas,I. (1995). The effect of spatial structure on p-median results. Transportation Science, 29(4), 366-373.
Pardalos, P.M., & Du, D. (1998). Network design: Connectivity and facilities location. In: DIMACS Series in Discrete Mathematics and Theoretical Computer Science, 40. American Mathematical Society.
Ravi, R., & Sinha, A. (2006). Approximation algorithms for problems combining facility location and network design. Operations Research. 54. 73–81
Solanki, R.S., Gorti, J.K., & Southworth, F. (1998). Using decomposition in large-scale highway network design with a quasi-optimization heuristic. Transportation Research Part B: Methodological ,32(2), 127–140.
Yang, H. (1998). Models and algorithms for road network design: a review and some new developments. Transport Reviews 18(3), 257–278.