How to cite this paper
Golmohammadi, A., Bani-Asadi, H., Esmaeeli, H., Hadian, H & Bagheri, F. (2016). Facility layout for cellular manufacturing system under dynamic conditions.Decision Science Letters , 5(3), 407-416.
Refrences
Ahi, A., Aryanezhad, M. B., Ashtiani, B., & Makui, A. (2009). A novel approach to determine cell formation, intracellular machine layout and cell layout in the CMS problem based on TOPSIS method. Computers & Operations Research, 36(5), 1478-1496.
Alfa, A. S., Chen, M., & Heragu, S. S. (1992). Integrating the grouping and layout problems in cellular manufacturing systems. Computers & Industrial Engineering, 23(1), 55-58.
Balasubramanian, K. N., & Panneerselvam, R. (1993). Covering technique-based algorithm for machine grouping to form manufacturing cells. The International Journal of Production Research, 31(6), 1479-1504.
Chan, F. T. S., Lau, K. W., Chan, L. Y., & Lo, V. H. Y. (2008). Cell formation problem with consideration of both intracellular and intercellular movements.International Journal of Production Research, 46(10), 2589-2620.
Chang, C. C., Wu, T. H., & Chung, S. H. (2009, September). A novel approach for cell formation and cell layout design in cellular manufacturing system. In Management and Service Science, 2009. MASS & apos; 09. International Conference on (pp. 1-4). IEEE.
Chandrasekharan, M. P., & Rajagopalan, R. (1993). A multidimensional scaling algorithm for group layout in cellular manufacturing. International Journal of Production Economics, 32(1), 65-76.
Chandrasekar, K., & Venkumar, P. (2013). Genetic algorithm approach for integrating cell formation with machine layout and cell layout. International Journal of Operational Research, 16(2), 155-171.
Co, H. C., & Araar, A. (1988). Configuring cellular manufacturing systems.The International Journal Of Production Research, 26(9), 1511-1522.
Dixit, A. R., & Mishra, P. K. (2009). Ex-CLASS: Extended Cell formation and LAyout Selection considering production parameters with Sequence data.International Journal of Product Development, 10(1-3), 180-200.
Goldberg, D. E., & Holland, J. H. (1988). Genetic algorithms and machine learning. Machine learning, 3(2), 95-99.
Houshyar, A., & McGINNIS, L. F. (1990). A heuristic for assigning facilities to locations to minimize WIP travel distance in a linear facility. The International Journal of Production Research, 28(8), 1485-1498.
Hwang, C.L., & Yoon, K. (1981). Multiple Attribute Decision Making: Methods and Applications. New York: Springer-Verlag.
Logendran, R. (1991). Impact of sequence of operations and layout of cells in cellular manufacturing. The International Journal of Production Research, 29(2), 375-390.
Mahdavi, I., & Mahadevan, B. (2008). CLASS: An algorithm for cellular manufacturing system and layout design using sequence data. Robotics and Computer-Integrated Manufacturing, 24(3), 488-497.
Mahdavi, I., Paydar, M. M., Solimanpur, M., & Saidi-Mehrabad, M. (2010). A mathematical model for integrating cell formation problem with machine layout. International Journal of Industrial Engineering, 21(2), 61-70.
Ming, L. C., & Ponnambalam, S. G. (2008, October). A hybrid GA/PSO for the concurrent design of cellular manufacturing system. In Systems, Man and Cybernetics, 2008. SMC 2008. IEEE International Conference on (pp. 1855-1860). IEEE.
Nouri, H., & Hong, T. S. (2013). Development of bacteria foraging optimization algorithm for cell formation in cellular manufacturing system considering cell load variations. Journal of Manufacturing Systems, 32(1), 20-31.
Paydar, M. M., Mahdavi, I., Solimanpur, M., & Tajdin, A. (2008, December). Solving a new mathematical model for cellular manufacturing system: fuzzy goal programming. In Industrial Engineering and Engineering Management, 2008. IEEM 2008. IEEE International Conference on (pp. 1224-1228). IEEE.
Paydar, M. M., Mahdavi, I., Sharafuddin, I., & Solimanpur, M. (2010). Applying simulated annealing for designing cellular manufacturing systems using MDmTSP. Computers & Industrial Engineering, 59(4), 929-936.
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(2), 721-728.
Vakharia, A. J., & Wemmerlov, U. (1990). Designing a cellular manufacturing system: a materials flow approach based on operation sequences. IIE transactions, 22(1), 84-97.
Alfa, A. S., Chen, M., & Heragu, S. S. (1992). Integrating the grouping and layout problems in cellular manufacturing systems. Computers & Industrial Engineering, 23(1), 55-58.
Balasubramanian, K. N., & Panneerselvam, R. (1993). Covering technique-based algorithm for machine grouping to form manufacturing cells. The International Journal of Production Research, 31(6), 1479-1504.
Chan, F. T. S., Lau, K. W., Chan, L. Y., & Lo, V. H. Y. (2008). Cell formation problem with consideration of both intracellular and intercellular movements.International Journal of Production Research, 46(10), 2589-2620.
Chang, C. C., Wu, T. H., & Chung, S. H. (2009, September). A novel approach for cell formation and cell layout design in cellular manufacturing system. In Management and Service Science, 2009. MASS & apos; 09. International Conference on (pp. 1-4). IEEE.
Chandrasekharan, M. P., & Rajagopalan, R. (1993). A multidimensional scaling algorithm for group layout in cellular manufacturing. International Journal of Production Economics, 32(1), 65-76.
Chandrasekar, K., & Venkumar, P. (2013). Genetic algorithm approach for integrating cell formation with machine layout and cell layout. International Journal of Operational Research, 16(2), 155-171.
Co, H. C., & Araar, A. (1988). Configuring cellular manufacturing systems.The International Journal Of Production Research, 26(9), 1511-1522.
Dixit, A. R., & Mishra, P. K. (2009). Ex-CLASS: Extended Cell formation and LAyout Selection considering production parameters with Sequence data.International Journal of Product Development, 10(1-3), 180-200.
Goldberg, D. E., & Holland, J. H. (1988). Genetic algorithms and machine learning. Machine learning, 3(2), 95-99.
Houshyar, A., & McGINNIS, L. F. (1990). A heuristic for assigning facilities to locations to minimize WIP travel distance in a linear facility. The International Journal of Production Research, 28(8), 1485-1498.
Hwang, C.L., & Yoon, K. (1981). Multiple Attribute Decision Making: Methods and Applications. New York: Springer-Verlag.
Logendran, R. (1991). Impact of sequence of operations and layout of cells in cellular manufacturing. The International Journal of Production Research, 29(2), 375-390.
Mahdavi, I., & Mahadevan, B. (2008). CLASS: An algorithm for cellular manufacturing system and layout design using sequence data. Robotics and Computer-Integrated Manufacturing, 24(3), 488-497.
Mahdavi, I., Paydar, M. M., Solimanpur, M., & Saidi-Mehrabad, M. (2010). A mathematical model for integrating cell formation problem with machine layout. International Journal of Industrial Engineering, 21(2), 61-70.
Ming, L. C., & Ponnambalam, S. G. (2008, October). A hybrid GA/PSO for the concurrent design of cellular manufacturing system. In Systems, Man and Cybernetics, 2008. SMC 2008. IEEE International Conference on (pp. 1855-1860). IEEE.
Nouri, H., & Hong, T. S. (2013). Development of bacteria foraging optimization algorithm for cell formation in cellular manufacturing system considering cell load variations. Journal of Manufacturing Systems, 32(1), 20-31.
Paydar, M. M., Mahdavi, I., Solimanpur, M., & Tajdin, A. (2008, December). Solving a new mathematical model for cellular manufacturing system: fuzzy goal programming. In Industrial Engineering and Engineering Management, 2008. IEEM 2008. IEEE International Conference on (pp. 1224-1228). IEEE.
Paydar, M. M., Mahdavi, I., Sharafuddin, I., & Solimanpur, M. (2010). Applying simulated annealing for designing cellular manufacturing systems using MDmTSP. Computers & Industrial Engineering, 59(4), 929-936.
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(2), 721-728.
Vakharia, A. J., & Wemmerlov, U. (1990). Designing a cellular manufacturing system: a materials flow approach based on operation sequences. IIE transactions, 22(1), 84-97.