How to cite this paper
Hunagund, I., Pillai, V & Kempaiah, U. (2018). A simulated annealing algorithm for unequal area dynamic facility layout problems with flexible bay structure.International Journal of Industrial Engineering Computations , 9(3), 307-330.
Refrences
Abedzadeh, M., Mazinani, M., Moradinasab, N. & Roghanian, E. (2013). Parallel neighborhood search for solving fuzzy multi-objective dynamic facility layout problem. International Journal of Advance Manufacturing Technology, 65, 197-211.
Aiello, G., Scalia, G.L. & Enea, M. (2012). A multi objective genetic algorithm for the facility layout problem based upon the slicing structure encoding. Experts Systems with Applications, 39, 10352-10358.
Armour, G.C., & Buffa, E.S. (1963). A heuristic algorithm and simulation approach to relative location of facilities. Management Science, 9, 294-309.
Balakrishnan, J., & Cheng, C. H. (1998). Dynamic layout algorithms: A state-of-the-art survey. International Journal of Management Science, 26(4), 507–521.
Balakrishnan, J., & Cheng, C. H. (2000). Genetic search and the dynamic layout problem. Computers and Operations Research, 27(6), 587–593.
Balakrishnan, J., Cheng, C.H., Conway, D.G., & Lau, C. M., (2003). A hybrid genetic algorithm for the dynamic plant layout problem. International Journal of Production Economics, 86, 107–120.
Baykasoglu, A., & Gindy, N. (2001). A simulated annealing algorithm for dynamic layout problem. Computers and Operations Research, 28(14), 1403–1426.
Bozorgi, N., Abedzadeh, M., & Zeinali, M. (2015). Tabu search heuristic for efficiency of dynamic facility layout problem. International Journal of Advance Manufacturing Technology, 77, 689–703.
Chan, W.M., Chan, C.Y., & Ip, W.H. (2002). A Heuristic Algorithm for Machine Assignment in Cellular Layout. Computers & Industrial Engineering, 44, 49-73.
Chan, W.M., Chan, C.Y., & Kwong, C.K. (2004). Development of the MAIN Algorithm for a Cellular Manufacturing Machine Layout. International Journal of Production Research, 42, 51–65.
Conway, D.G., & Venkataramanan, M.A. (1994). Genetic search and dynamic facility layout problem. Computers and Operations Research, 21(8), 955-960.
Derakhshan Asl, A., & Wong, K.Y. (2017). Solving unequal-area static and dynamic facility layout problems using modified particle swarm optimization. Journal of Intelligent Manufacturing, 28, 1317-1336.
Drira, H., Pierreval, S., & Hajri-Gabouj. (2007). Facility layout problems: A survey. Annals reviews in Control, 31, 255–267.
Dunker, T., Radons, G., & Westkamper, E. (2005). Combining evolutionary computation and dynamic programming for solving a dynamic facility layout problem. European Journal of Operational Research, 165, 55-69.
Forghani, K., Mohammadi, M., & Ghezavati, V. (2013). Designing robust layout in cellular manufacturing systems with uncertain demands. International Journal of Industrial Engineering Computations, 4, 215–226.
Garcia-Hernandez, L., Palomo-Romero, J.M., Salas-Morera, L., Arauzo-Azofra, A. & Pierreval, H. (2015). A novel hybrid evolutionary approach for capturing decision maker knowledge into the unequal area facility layout problem. Experts Systems with Applications, 42, 4697-4708.
Garcia-Hernandez, L., Pierreval, H., Salas-Morera, L. & Arauzo-Azofra, A. (2013). Handling qualitative aspects in unequal area facility layout problem: An interactive genetic algorithm. Applied Soft Computing, 13, 1718-1727.
Islier, A.A. (1998). A genetic algorithm approach for multiple criteria facility layout design. International Journal of Production Research, 36(6), 1549-1569.
Kaviani, M. A., Abbasi, M., Rahpeyma, B., & Yusefi, M. M. (2014). A hybrid Tabu search-simulated annealing method to solve quadratic assignment problem. Decision Science Letters, 3, 391–396.
Kirkpatrick, S., Gelatt, CD., & Vecchi, MP. (1983). Optimization by simulated annealing. Science, 220(4598), 671-680.
Komarudin, K.Y., & Wong. (2010). Applying Ant System for solving Unequal Area Facility Layout Problems. European Journal of Operational Research, 202, 730–746.
Konak, A., Kulturel-Konak, S., Norman, B.A., & Smith, A.E. (2006). A new mixed integer programming formulation for facility layout design using flexible bays. Operations Research Letters, 34, 660 – 672.
Koopmans, T. C., & Beckmann, M. (1957). Assignment problems and the location of economic activities. Econometrica, 25(1), 53–76.
Kulturel-Konak, S., & Konak, A. (2011). A new relaxed flexible bay structure representation and particle swarm optimization for the unequal area facility layout problem. Engineering Optimization, 43(12), 1263–1287.
Kulturel-Konak, S., & Konak, A. (2015). A large-scale hybrid simulated annealing algorithm for cyclic facility layout problem. Engineering Optimization, 47(7), 963–978.
Kusiak, A., & Heragu, S. S. (1987). The facility layout problem- Invited review. European Journal of Operational Research,29, 229-251.
Lacksonen, T.A. (1994). Static and Dynamic Layout Problems with Varying Areas. Journal of operational Research Society, 45(1), 59-69.
Lacksonen, T.A. (1997). Pre-processing for static and dynamic facility layout problems. International Journal of Production Research, 35(4), 1095–1106.
Mazinani, M., Abedzadeh, M., & Mohebali, N. (2013). Dynamic facility layout problem based on flexible bay structure and solving by genetic algorithm. International Journal of Advance Manufacturing Technology, 65(5–8), 929–943.
McKendall Jr., A.R., & Hakobyan, A. (2010). Heuristics for the dynamic facility layout problem with unequal-area departments. European Journal of Operational Research, 201, 171–182.
McKendall Jr., A.R., Shang, J., & Kuppusamy, S. (2006). Simulated annealing heuristics for the dynamic facility layout problem. Computers and Operations Research, 33, 2431–2444.
Meei-Yuh, K., Michael, H.H., & Ming-Jaan, W. (2011). Simulated annealing based parallel genetic algorithm for facility layout problem. International Journal of Production Research, 49(6), 1801-1812.
Meller, R.D., Narayanan, V., & Vance, P.H. (1998). Optimal facility layout design. Operations Research Letters, 23 (3–5), 117–127.
Montreuil, B. (1990). A modelling framework for integrating layout design and flow network design. Proceedings from the Material Handling Research Colloquium, Hebron, Kentucky,43–58.
Montreuil1, B., & Venkatadri, U. (1991). Strategic interpolative design of dynamic manufacturing systems layouts. Management Science, 37(6), 682-694.
Moslemipour, G., Lee, T. S., & Rilling, D. (2012). A review of intelligent approaches for designing dynamic and robust layouts in flexible manufacturing systems. International Journal of Advance Manufacturing Technology, 60, 11–27.
Palomo-Romero, J.M., Salas-Morera, L., & García-Hernández, L. (2017). An island model genetic algorithm for unequal area facility layout problems. Expert Systems with Applications, 68, 151–162.
Pillai, V.M., Hunagund, I.B., & Krishnan, K.K. (2011). Design of robust layout for Dynamic Plant Layout Problems. Computers & Industrial Engineering,61, 813–823.
Pourvaziri, H., & Naderi, B. (2014). A hybrid multi-population genetic algorithm for the dynamic facility layout problem. Applied Soft Computing, 24, 457-469.
Rabbani, M., Elahi, S., & Javadi, B. (2017). A comprehensive quadratic assignment problem for an integrated layout design of final assembly line and manufacturing feeder cells. Decision Science Letters, 6, 165–192.
Rosenblatt, M. J. (1986). The dynamics of plant layout. Management Science, 32(1), 76–86.
Scholz, D., Petrick, A., & Domschke, W. (2009). STaTS: A Slicing Tree and Tabu Search based heuristic for the unequal area facility layout problem. European Journal of Operational Research, 197, 166–178.
Singh, S. P., & Sharma, R. R. K. (2006). A review of different approaches to the facility layout problems. International Journal of Advance Manufacturing Technology, 30, 425–433.
Tam, K.Y. (1992). A simulated annealing algorithm for allocating space to manufacturing cells. International Journal of Production Research, 30 (1), 63–87.
Tate, D.M., & Smith, A.E. (1995). Unequal-area facility layout by genetic search. lIE Transactions, 27, 465-472.
Ulutas, H., & Kulturel-Konak, S. (2012). An artificial immune system based algorithm to solve unequal area facility layout problem. Experts Systems with Applications, 39, 5384-5395.
Wilhem, M.R., & Ward, T.L. (1987). Solving quadratic assignment problems by Simulated Annealing. IIE Transanctions, 19(1), 107-11.
Wong, K.Y., & Komarudin (2010). Solving facility layout problems with flexible bay representation and ant system algorithm. Experts Systems with Applications, 38, 5523-5527.
Yaman, A., Gethin, D.T., & Clarke, M.J. (1993). An effective sorting method for facility layout construction. International Journal of Production Research, 31(2), 413-427.
Yang, C. L., Chuang, S. P., &Hsu, T. S. (2011). A genetic algorithm for dynamic facility planning in job shop manufacturing. International Journal of Advance Manufacturing Technology, 52, 303–309.
Yang, T., & Peters, B. A. (1998). Flexible machine layout design for dynamic and uncertain production environments. European Journal of Operational Research, 108, 49–64.
Aiello, G., Scalia, G.L. & Enea, M. (2012). A multi objective genetic algorithm for the facility layout problem based upon the slicing structure encoding. Experts Systems with Applications, 39, 10352-10358.
Armour, G.C., & Buffa, E.S. (1963). A heuristic algorithm and simulation approach to relative location of facilities. Management Science, 9, 294-309.
Balakrishnan, J., & Cheng, C. H. (1998). Dynamic layout algorithms: A state-of-the-art survey. International Journal of Management Science, 26(4), 507–521.
Balakrishnan, J., & Cheng, C. H. (2000). Genetic search and the dynamic layout problem. Computers and Operations Research, 27(6), 587–593.
Balakrishnan, J., Cheng, C.H., Conway, D.G., & Lau, C. M., (2003). A hybrid genetic algorithm for the dynamic plant layout problem. International Journal of Production Economics, 86, 107–120.
Baykasoglu, A., & Gindy, N. (2001). A simulated annealing algorithm for dynamic layout problem. Computers and Operations Research, 28(14), 1403–1426.
Bozorgi, N., Abedzadeh, M., & Zeinali, M. (2015). Tabu search heuristic for efficiency of dynamic facility layout problem. International Journal of Advance Manufacturing Technology, 77, 689–703.
Chan, W.M., Chan, C.Y., & Ip, W.H. (2002). A Heuristic Algorithm for Machine Assignment in Cellular Layout. Computers & Industrial Engineering, 44, 49-73.
Chan, W.M., Chan, C.Y., & Kwong, C.K. (2004). Development of the MAIN Algorithm for a Cellular Manufacturing Machine Layout. International Journal of Production Research, 42, 51–65.
Conway, D.G., & Venkataramanan, M.A. (1994). Genetic search and dynamic facility layout problem. Computers and Operations Research, 21(8), 955-960.
Derakhshan Asl, A., & Wong, K.Y. (2017). Solving unequal-area static and dynamic facility layout problems using modified particle swarm optimization. Journal of Intelligent Manufacturing, 28, 1317-1336.
Drira, H., Pierreval, S., & Hajri-Gabouj. (2007). Facility layout problems: A survey. Annals reviews in Control, 31, 255–267.
Dunker, T., Radons, G., & Westkamper, E. (2005). Combining evolutionary computation and dynamic programming for solving a dynamic facility layout problem. European Journal of Operational Research, 165, 55-69.
Forghani, K., Mohammadi, M., & Ghezavati, V. (2013). Designing robust layout in cellular manufacturing systems with uncertain demands. International Journal of Industrial Engineering Computations, 4, 215–226.
Garcia-Hernandez, L., Palomo-Romero, J.M., Salas-Morera, L., Arauzo-Azofra, A. & Pierreval, H. (2015). A novel hybrid evolutionary approach for capturing decision maker knowledge into the unequal area facility layout problem. Experts Systems with Applications, 42, 4697-4708.
Garcia-Hernandez, L., Pierreval, H., Salas-Morera, L. & Arauzo-Azofra, A. (2013). Handling qualitative aspects in unequal area facility layout problem: An interactive genetic algorithm. Applied Soft Computing, 13, 1718-1727.
Islier, A.A. (1998). A genetic algorithm approach for multiple criteria facility layout design. International Journal of Production Research, 36(6), 1549-1569.
Kaviani, M. A., Abbasi, M., Rahpeyma, B., & Yusefi, M. M. (2014). A hybrid Tabu search-simulated annealing method to solve quadratic assignment problem. Decision Science Letters, 3, 391–396.
Kirkpatrick, S., Gelatt, CD., & Vecchi, MP. (1983). Optimization by simulated annealing. Science, 220(4598), 671-680.
Komarudin, K.Y., & Wong. (2010). Applying Ant System for solving Unequal Area Facility Layout Problems. European Journal of Operational Research, 202, 730–746.
Konak, A., Kulturel-Konak, S., Norman, B.A., & Smith, A.E. (2006). A new mixed integer programming formulation for facility layout design using flexible bays. Operations Research Letters, 34, 660 – 672.
Koopmans, T. C., & Beckmann, M. (1957). Assignment problems and the location of economic activities. Econometrica, 25(1), 53–76.
Kulturel-Konak, S., & Konak, A. (2011). A new relaxed flexible bay structure representation and particle swarm optimization for the unequal area facility layout problem. Engineering Optimization, 43(12), 1263–1287.
Kulturel-Konak, S., & Konak, A. (2015). A large-scale hybrid simulated annealing algorithm for cyclic facility layout problem. Engineering Optimization, 47(7), 963–978.
Kusiak, A., & Heragu, S. S. (1987). The facility layout problem- Invited review. European Journal of Operational Research,29, 229-251.
Lacksonen, T.A. (1994). Static and Dynamic Layout Problems with Varying Areas. Journal of operational Research Society, 45(1), 59-69.
Lacksonen, T.A. (1997). Pre-processing for static and dynamic facility layout problems. International Journal of Production Research, 35(4), 1095–1106.
Mazinani, M., Abedzadeh, M., & Mohebali, N. (2013). Dynamic facility layout problem based on flexible bay structure and solving by genetic algorithm. International Journal of Advance Manufacturing Technology, 65(5–8), 929–943.
McKendall Jr., A.R., & Hakobyan, A. (2010). Heuristics for the dynamic facility layout problem with unequal-area departments. European Journal of Operational Research, 201, 171–182.
McKendall Jr., A.R., Shang, J., & Kuppusamy, S. (2006). Simulated annealing heuristics for the dynamic facility layout problem. Computers and Operations Research, 33, 2431–2444.
Meei-Yuh, K., Michael, H.H., & Ming-Jaan, W. (2011). Simulated annealing based parallel genetic algorithm for facility layout problem. International Journal of Production Research, 49(6), 1801-1812.
Meller, R.D., Narayanan, V., & Vance, P.H. (1998). Optimal facility layout design. Operations Research Letters, 23 (3–5), 117–127.
Montreuil, B. (1990). A modelling framework for integrating layout design and flow network design. Proceedings from the Material Handling Research Colloquium, Hebron, Kentucky,43–58.
Montreuil1, B., & Venkatadri, U. (1991). Strategic interpolative design of dynamic manufacturing systems layouts. Management Science, 37(6), 682-694.
Moslemipour, G., Lee, T. S., & Rilling, D. (2012). A review of intelligent approaches for designing dynamic and robust layouts in flexible manufacturing systems. International Journal of Advance Manufacturing Technology, 60, 11–27.
Palomo-Romero, J.M., Salas-Morera, L., & García-Hernández, L. (2017). An island model genetic algorithm for unequal area facility layout problems. Expert Systems with Applications, 68, 151–162.
Pillai, V.M., Hunagund, I.B., & Krishnan, K.K. (2011). Design of robust layout for Dynamic Plant Layout Problems. Computers & Industrial Engineering,61, 813–823.
Pourvaziri, H., & Naderi, B. (2014). A hybrid multi-population genetic algorithm for the dynamic facility layout problem. Applied Soft Computing, 24, 457-469.
Rabbani, M., Elahi, S., & Javadi, B. (2017). A comprehensive quadratic assignment problem for an integrated layout design of final assembly line and manufacturing feeder cells. Decision Science Letters, 6, 165–192.
Rosenblatt, M. J. (1986). The dynamics of plant layout. Management Science, 32(1), 76–86.
Scholz, D., Petrick, A., & Domschke, W. (2009). STaTS: A Slicing Tree and Tabu Search based heuristic for the unequal area facility layout problem. European Journal of Operational Research, 197, 166–178.
Singh, S. P., & Sharma, R. R. K. (2006). A review of different approaches to the facility layout problems. International Journal of Advance Manufacturing Technology, 30, 425–433.
Tam, K.Y. (1992). A simulated annealing algorithm for allocating space to manufacturing cells. International Journal of Production Research, 30 (1), 63–87.
Tate, D.M., & Smith, A.E. (1995). Unequal-area facility layout by genetic search. lIE Transactions, 27, 465-472.
Ulutas, H., & Kulturel-Konak, S. (2012). An artificial immune system based algorithm to solve unequal area facility layout problem. Experts Systems with Applications, 39, 5384-5395.
Wilhem, M.R., & Ward, T.L. (1987). Solving quadratic assignment problems by Simulated Annealing. IIE Transanctions, 19(1), 107-11.
Wong, K.Y., & Komarudin (2010). Solving facility layout problems with flexible bay representation and ant system algorithm. Experts Systems with Applications, 38, 5523-5527.
Yaman, A., Gethin, D.T., & Clarke, M.J. (1993). An effective sorting method for facility layout construction. International Journal of Production Research, 31(2), 413-427.
Yang, C. L., Chuang, S. P., &Hsu, T. S. (2011). A genetic algorithm for dynamic facility planning in job shop manufacturing. International Journal of Advance Manufacturing Technology, 52, 303–309.
Yang, T., & Peters, B. A. (1998). Flexible machine layout design for dynamic and uncertain production environments. European Journal of Operational Research, 108, 49–64.