How to cite this paper
Forghani, K., khamseh, A & Mohammadi, M. (2012). Integrated quadratic assignment and continuous facility layout problem.International Journal of Industrial Engineering Computations , 3(5), 787-806.
Refrences
Adel El-Baz, M. (2004). A genetic algorithm for facility layout problems of different manufacturing environments. Computers & Industrial Engineering, 47, 233–246.
Adil, G. K., & Rajamani, D. (2000). The Trade-Off Between intracell and intercell moves in group technology cell formation. Journal of Manufacturing Systems, 19 (5), 305-317.
Akturk, M. S., & Turkcan, A. (2000). Cellular manufacturing system design using a holonistic approach. International Journal of Production Research, 38 (10), 2327-2347.
Chan, F. T., Lau, K., Chan, P., & Choy, K. (2006). Two-stage approach for machine-part grouping and cell layout problems. Robotics and Computer-Integrated Manufacturing, 22, 217–238.
Cheng, C. H., Madan, M. S., & Motwani, J. (1966). Knapsack-based algorithm for designing cellular manufacturing systems. The Journal of Operation Research Society, 47 (12), 1648-1476.
Chiang, C.-P., & Lee, S.-D. (2004). Joint determination of machine cells and linear intercell layout. Computers & Operations Research, 31, 1603–1619.
Commander, C. W. (2003). A Survey of the Quadratic Assignment Problem, with Applications. The University of Florida.
Drira, A., Pierreval, H., & Hajri-Gabouj, S. (2007). Facility layout problems: A survey. Annual Reviews in Control, 31, 255–267.
Harhalakis, G., Nagi, R., & Proth, J. M. (1990). An Eflicient Heuristic in Manufacturing Cell Formation for Group Technology Applications. International Journal of Prduction Research, 28 (1), 185-198.
Heragu, S. S., & Kusiak, A. (1991). Effcient models for the facility layout problem. European Journal of Operational Research, 53, 1-13.
Heragu, S. S., & Kusiak, A. (1988). Machine layout problem in flexible manufacturing systems. Operations Research, 36 (2), 258–268.
Hicks, C. (2006). A Genetic Algorithm tool for optimising cellular or functional layouts in the capital goods industry. International Journal of Production Economics, 104, 598–614.
Kaku, B., Thompson, G., & Baybars, I. (1988). A heuristic method for the multi-story layout problem. European Journal of Operational Research, 37, 384–397.
Kaufmann, L., & Broeckx, F. (1978). An algorithm for the quadratic assignment problem using Benders’ decomposition. European Journal of Operational Research, 2, 204–211.
Kazerooni, M. L., Luong, H. S., & Abhary, K. (1997). A genetic algorithm based cell design considering alternative routing. International Journal of Computational Integrated Manufacturing Systems, 10 (2), 93–107.
Kochhar, J. S., Foster, B. T., & Heragu, S. S. (1998). A GENETIC ALGORITHM FOR THE UNEQUAL AREA FACILITY LAYOUT PROBLEM. Computers & Operations Research, 25 (7/8), 583-594.
Konak, A., Kulturel-Konak, S., Norman, B. A., & Smith, A. E. (2006). Anewmixed integer programming formulation for facility layout design using flexible bays. Operations Research Letters, 34, 660 – 672.
Koopmans, T. C., & Beckmann, M. J. (1957). Assignment problems and the location of economic activities. Econometrica, 25, 53–76.
Kusiak, A., & Heragu, S. (1987). The facility layout problem. European Journal of Operational Research, 29, 229–251.
Love, R., & Wong, J. (1976). On solving a one-dimensional allocation problem with integer programming. Information Processing and Operations Research, 14 (2), 139–143.
Meller, R., & Gau, K. (1996). The facility layout problem: recent and emerging trends and perspectives. Journal of Manufacturing Systems, 15, 351–366.
Ramabhatta, V., & Nagi, R. (1996). An integrated formulation of manufacturing cell formation with capacity planning and multiple routings. Baltzer Journals, 1-18.
Sahni, S., & Gonzalez, T. (1976). P-complete Approximation Problems. Journal of the ACM, 23, 555-565.
Simmons, D. (1969). One-dimensional space allocation: An ordering algorithm. Operations Research, 17, 812–826.
Singh, S. P., & Sharma, R. R. (2005). A review of different approaches to the facility layout problems. The International Journal of Advanced Manufacturing Technology, 30, 425–433.
Solimanpur, M., Vrat, P., & Shankar, R. (2005). An ant algorithm for the single row layout problem in flexible manufacturing systems.Computers & Operations Research, 3 (32), pp. 583–598.
Sule, D. R. (1994). Manufacturing facilities: location, planning, and design (2nd ed.). Boston: PWS Publishing Company.
Taghavi, A., & Murat, A. (2011). A heuristic procedure for the integrated facility layout design and flow assignment problem. Computers & Industrial Engineering, 61, 55–63.
Tavakkoli-Moghaddam, R., Javadian, N., Javadi, B., & Safaei, N. (2007). Design of a facility layout problem in cellular manufacturing systems with stochastic demands. Applied Mathematics and Computation, 184, 721–728.
Tompkins, J. A., White, J. A., Bozer, Y. A., & Tanchoco, J. M. (2003). Facilities planning (3rd ed.). New York: John Wiley & Sons.
Wemmerl?v, U., & Hyer, N. (1986). Procedures for the part family/machine group identification problem in cellular manufacture. Journal of Operations Management, 6, 125-147.
Wu, X., Chu, C.-H., Wang, Y., & Yan, W. (2007). A genetic algorithm for cellular manufacturing design and layout. European Journal of Operational Research, 181, 156–167.
Adil, G. K., & Rajamani, D. (2000). The Trade-Off Between intracell and intercell moves in group technology cell formation. Journal of Manufacturing Systems, 19 (5), 305-317.
Akturk, M. S., & Turkcan, A. (2000). Cellular manufacturing system design using a holonistic approach. International Journal of Production Research, 38 (10), 2327-2347.
Chan, F. T., Lau, K., Chan, P., & Choy, K. (2006). Two-stage approach for machine-part grouping and cell layout problems. Robotics and Computer-Integrated Manufacturing, 22, 217–238.
Cheng, C. H., Madan, M. S., & Motwani, J. (1966). Knapsack-based algorithm for designing cellular manufacturing systems. The Journal of Operation Research Society, 47 (12), 1648-1476.
Chiang, C.-P., & Lee, S.-D. (2004). Joint determination of machine cells and linear intercell layout. Computers & Operations Research, 31, 1603–1619.
Commander, C. W. (2003). A Survey of the Quadratic Assignment Problem, with Applications. The University of Florida.
Drira, A., Pierreval, H., & Hajri-Gabouj, S. (2007). Facility layout problems: A survey. Annual Reviews in Control, 31, 255–267.
Harhalakis, G., Nagi, R., & Proth, J. M. (1990). An Eflicient Heuristic in Manufacturing Cell Formation for Group Technology Applications. International Journal of Prduction Research, 28 (1), 185-198.
Heragu, S. S., & Kusiak, A. (1991). Effcient models for the facility layout problem. European Journal of Operational Research, 53, 1-13.
Heragu, S. S., & Kusiak, A. (1988). Machine layout problem in flexible manufacturing systems. Operations Research, 36 (2), 258–268.
Hicks, C. (2006). A Genetic Algorithm tool for optimising cellular or functional layouts in the capital goods industry. International Journal of Production Economics, 104, 598–614.
Kaku, B., Thompson, G., & Baybars, I. (1988). A heuristic method for the multi-story layout problem. European Journal of Operational Research, 37, 384–397.
Kaufmann, L., & Broeckx, F. (1978). An algorithm for the quadratic assignment problem using Benders’ decomposition. European Journal of Operational Research, 2, 204–211.
Kazerooni, M. L., Luong, H. S., & Abhary, K. (1997). A genetic algorithm based cell design considering alternative routing. International Journal of Computational Integrated Manufacturing Systems, 10 (2), 93–107.
Kochhar, J. S., Foster, B. T., & Heragu, S. S. (1998). A GENETIC ALGORITHM FOR THE UNEQUAL AREA FACILITY LAYOUT PROBLEM. Computers & Operations Research, 25 (7/8), 583-594.
Konak, A., Kulturel-Konak, S., Norman, B. A., & Smith, A. E. (2006). Anewmixed integer programming formulation for facility layout design using flexible bays. Operations Research Letters, 34, 660 – 672.
Koopmans, T. C., & Beckmann, M. J. (1957). Assignment problems and the location of economic activities. Econometrica, 25, 53–76.
Kusiak, A., & Heragu, S. (1987). The facility layout problem. European Journal of Operational Research, 29, 229–251.
Love, R., & Wong, J. (1976). On solving a one-dimensional allocation problem with integer programming. Information Processing and Operations Research, 14 (2), 139–143.
Meller, R., & Gau, K. (1996). The facility layout problem: recent and emerging trends and perspectives. Journal of Manufacturing Systems, 15, 351–366.
Ramabhatta, V., & Nagi, R. (1996). An integrated formulation of manufacturing cell formation with capacity planning and multiple routings. Baltzer Journals, 1-18.
Sahni, S., & Gonzalez, T. (1976). P-complete Approximation Problems. Journal of the ACM, 23, 555-565.
Simmons, D. (1969). One-dimensional space allocation: An ordering algorithm. Operations Research, 17, 812–826.
Singh, S. P., & Sharma, R. R. (2005). A review of different approaches to the facility layout problems. The International Journal of Advanced Manufacturing Technology, 30, 425–433.
Solimanpur, M., Vrat, P., & Shankar, R. (2005). An ant algorithm for the single row layout problem in flexible manufacturing systems.Computers & Operations Research, 3 (32), pp. 583–598.
Sule, D. R. (1994). Manufacturing facilities: location, planning, and design (2nd ed.). Boston: PWS Publishing Company.
Taghavi, A., & Murat, A. (2011). A heuristic procedure for the integrated facility layout design and flow assignment problem. Computers & Industrial Engineering, 61, 55–63.
Tavakkoli-Moghaddam, R., Javadian, N., Javadi, B., & Safaei, N. (2007). Design of a facility layout problem in cellular manufacturing systems with stochastic demands. Applied Mathematics and Computation, 184, 721–728.
Tompkins, J. A., White, J. A., Bozer, Y. A., & Tanchoco, J. M. (2003). Facilities planning (3rd ed.). New York: John Wiley & Sons.
Wemmerl?v, U., & Hyer, N. (1986). Procedures for the part family/machine group identification problem in cellular manufacture. Journal of Operations Management, 6, 125-147.
Wu, X., Chu, C.-H., Wang, Y., & Yan, W. (2007). A genetic algorithm for cellular manufacturing design and layout. European Journal of Operational Research, 181, 156–167.