How to cite this paper
Kazemi, M., Poormoaied, S & Eslami, G. (2012). Optimizing combination of job shop scheduling and quadratic assignment problem through multi-objective decision making approach.Management Science Letters , 2(6), 2011-2018.
Refrences
Charnes, A., & Cooper W.W. (1961). Management models and industrial applications of linear programming. 1st ed., John Willey, New York.
Chou, T.Y., Hsu, C.L., Chen, M.C. (2008). A fuzzy multi criteria decision model for international tourist hotels location selection. International Journal of Hospitality Management, 27, 293–301.
Fisher H., & Thompson G. L. (1973). Probabilistic learning combinations of local job-shop scheduling rules. In Industrial Scheduling: NJ, Prentice Hall, 128-139.
Huang, R.H. (2010). Multi-objective job-shop scheduling with lot-splitting production. International Journal of Production Economics, 124, 206–213.
Keeney R.L., & Raiffa H. (1993). Decision with multiple objectives. Cambridge university press, Cambridge.
Jackson, J. R. J. (1956). An extension of Johnson’s results on job lot scheduling. Navel Research Logistics Quarterly, 3, 201-203.
Lawrence S. (1993). Resource constraint project scheduling. An experimental investigation ofhueristic scheduling techniques. Carnegie-Mellon University, 412-435.
Li, J.Q., Pan, Q.K., & Liang, Y.C. (2010). An effective hybrid tabu search algorithm for multi-objective flexible job-shop scheduling problems. Computers & Industrial Engineering, 59, 647–662.
Niu, Q., Jiao, B., & Xingsheng, G. (2008). Particle swarm optimization combined with genetic operators for job shop scheduling problem with fuzzy processing time. Applied Mathematics and Computation, 205, 148–158.
Park, B.J., Choi, H.R., & Kang, M.H. (2007). Multi-agent Based Integration of Production and Distribution Planning Using Genetic Algorithm in the Supply Chain Management. Advances in Soft Computing, 41, 969-706.
Sule., D.R. (1997). Industrial Scheduling, PWS Publishing Company. 37-49.
Satake T., Morikawa K., & Nakamura N. (1994). Neural network approach for minimizing the make span of the general job shop. International Journal of Production Economics, 33, 67-74.
Sakawa, M., & Kubota, R. (2001). Two-objective fuzzy job shop scheduling through genetic algorithms. Electronics and Communications in Japan, 84 (4), 60-67.
Zeleny, M. (1973). Compromise Programming. Multiple Criteria Decision Making, 262-301.
Chou, T.Y., Hsu, C.L., Chen, M.C. (2008). A fuzzy multi criteria decision model for international tourist hotels location selection. International Journal of Hospitality Management, 27, 293–301.
Fisher H., & Thompson G. L. (1973). Probabilistic learning combinations of local job-shop scheduling rules. In Industrial Scheduling: NJ, Prentice Hall, 128-139.
Huang, R.H. (2010). Multi-objective job-shop scheduling with lot-splitting production. International Journal of Production Economics, 124, 206–213.
Keeney R.L., & Raiffa H. (1993). Decision with multiple objectives. Cambridge university press, Cambridge.
Jackson, J. R. J. (1956). An extension of Johnson’s results on job lot scheduling. Navel Research Logistics Quarterly, 3, 201-203.
Lawrence S. (1993). Resource constraint project scheduling. An experimental investigation ofhueristic scheduling techniques. Carnegie-Mellon University, 412-435.
Li, J.Q., Pan, Q.K., & Liang, Y.C. (2010). An effective hybrid tabu search algorithm for multi-objective flexible job-shop scheduling problems. Computers & Industrial Engineering, 59, 647–662.
Niu, Q., Jiao, B., & Xingsheng, G. (2008). Particle swarm optimization combined with genetic operators for job shop scheduling problem with fuzzy processing time. Applied Mathematics and Computation, 205, 148–158.
Park, B.J., Choi, H.R., & Kang, M.H. (2007). Multi-agent Based Integration of Production and Distribution Planning Using Genetic Algorithm in the Supply Chain Management. Advances in Soft Computing, 41, 969-706.
Sule., D.R. (1997). Industrial Scheduling, PWS Publishing Company. 37-49.
Satake T., Morikawa K., & Nakamura N. (1994). Neural network approach for minimizing the make span of the general job shop. International Journal of Production Economics, 33, 67-74.
Sakawa, M., & Kubota, R. (2001). Two-objective fuzzy job shop scheduling through genetic algorithms. Electronics and Communications in Japan, 84 (4), 60-67.
Zeleny, M. (1973). Compromise Programming. Multiple Criteria Decision Making, 262-301.