Dynamic cellular manufacturing system considering machine failure and workload balance
Subject Areas : Mathematical OptimizationMasoud Rabbani 1 , Hamed Farrokhi-Asl 2 , Mohammad Ravanbakhsh 3
1 - School of Industrial Engineering, College of Engineering, University of Tehran, P.O. Box: 11155-4563, Tehran, Iran
2 - School of Industrial Engineering, Iran University of Science and Technology, Tehran, Iran
3 - School of Industrial Engineering, College of Engineering, University of Tehran, P.O. Box: 11155-4563, Tehran, Iran
Keywords:
Abstract :
Aghajani A, Ahmadi-Didehbani S, Zadahmad M, Seyedrezaei MH, Mohsenian O (2014) A multi-objective mathematical model for cellular manufacturing systems design with probabilistic demand and machine reliability analysis. Int J Manuf Technol. https:// doi.org/10.1007/s00170-014-6084-0
Aramoon Bajestani M, Rabbani M, Rahimi-Vahed AR, Baharian Khoshkhou GA (2009) Multi-objective scatter search for a
dynamic cell formation problem. Comput Oper Res 36:777–794
Aryanezhad MB, Deljoo V, Mirzapour Al-e-Hashem SMJ (2009) Dynamic cell formation and the worker assignment problem: a new model. Int J Adv Manuf Techol 41(3):329–342
Azadeh A, Rezaei-Malek M, Evazabadian F, Sheikhalishahi M (2014) Improved design of CMS by considering operators decisionmaking styles. International Journal of Production Research (ahead-of-print) 1–12
Azadeh A, Sangari MS, Sangari E, Fatehi S (2015) A particle swarm algorithm for optimising inspection policies in serial multistage production processes with uncertain inspection costs. Int J Comput Integr Manuf 28(7):766–780
Browne J, Dubois D, Rathmill K, Sethi SP, Stecke KE (1984) Classification of flexible manufacturing systems. FMS mag
2(2):114–117
Chan HM, Milner DA (1982) direct clustering algorithm for group formation in cellular manufacturing. J Manuf Syst 1(1):65–75
Chung SH, Wu TH, Chang CC (2011) An efficient tabu search algorithm to the cell formation problem with alternative routings and machine reliability considerations. Comput Ind Eng 60(1):7–15
Defersha FM, Chen M (2006) A comprehensive mathematical model for the design of cellular manufacturing system. Int J Prod Econ 103:767–783
Ebeling CE (1997) An introduction to reliability and maintainability engineering. McGraw-Hill, New York
Ehrgott M (2006) Multicriteria optimization. Springer, New York
Ghotboddini MM, Rabbani M, Rahimian H (2011) A comprehensive dynamic cell formation design: benders’ decomposition approach. Expert Syst Appl 38(3):2478–2488
Hosseini A, Paydar MM, Mahdavi I, Jouzdani J (2016) Cell forming and cell balancing of virtual cellular manufacturing systems with alternative processing routes using genetic algorithm. J Optim Ind Eng 9(20):41–51
Jabal Ameli MS, Barzinpour F, Arkat J (2008) Modelling the effects of machine breakdowns in the generalized cell formation problem. Int J Adv Manuf Technol 39:838–850
Jouzdani J, Barzinpour F, Shafia MA, Fathian M (2014) Applying simulated annealing to a generalized cell formation problem considering alternative routings and machine reliability. AsiaPacific J Oper Res 31(04):1450021
Kannan VR (1998) Analysing the trade-off between efficiency and flexibility in cellular manufacturing system. Prod Plan Control 9(6):572–579
Karim R, Biswas SK (2015) Cell formation in a batch oriented production system using a local search heuristic with a genetic Aagorithm: an application of cellular manufacturing system. IOSR J Eng 5(4):28–41
Mehdizadeh E, Rahimi V (2016) An integrated mathematical model for solving dynamic cell formation problem considering operator assignment and inter/intra cell layouts. Appl Soft Comput 42:325–341
Mehdizadeh E, Niaki SVD, Rahimi V (2016) A vibration damping optimization algorithm for solving a new multi-objective
dynamic cell formation problem with workers training. Comput Ind Eng 101:35–52
Moradgholi M, Paydar MM, Mahdavi I, Jouzdani J (2016) A genetic algorithm for a bi-objective mathematical model for dynamic virtual cell formation problem. J Ind Eng Int 12(3):343–359
Mungwattana A (2000) Design of cellular manufacturing systems for dynamic and uncertain production requirements with presence of routing flexibility (Doctoral dissertation, Virginia Tech)
Niakan F, Baboli A, Moyaux T, Botta-Genoulaz V (2016) A biobjective model in sustainable dynamic cell formation problem with skill-based worker assignment. J Manuf Syst 38:46–62
Rabbani M, Farrokhi-Asl H, Rafiei H, Khaleghi R (2016) Using metaheuristic algorithms to solve a dynamic cell formation
problem with consideration of intra-cell layout design. Intelligent Decision Technologies, vol. Preprint, no. Preprint, pp. 1–18
Rabbania M, Keyhanianb S, Manavizadehc N, Farrokhi-Asld H (2017) Integrated dynamic cell formation-production planning: a new mathematical model. Sci Iran 24(5):2550–2566
Rabbani M, Ramezankhani MJ, Farrokhi-Asl H, Farshbaf-Geranmayeh A (2015) Vehicle routing with time windows and
customer selection for perishable goods. Int J Supply Operations Manage 2(2):700–719
Rafiei H, Ghods R (2013) A bi-objective mathematical model toward dynamic cell formation considering labor utilization. Appl Math Model 37:2308–2316
Ranjbar-Bourani M, Tavakkoli-Moghaddam R, Amoozad-Khalili H, Hashemian SM (2008) Applying scatter search algorithm based on TOPSIS to multi-objective cellular manufacturing system design. Int J Ind Eng (IJTE) 4870
Saad MS, Baykasoglu A, Gindy NNZ (2002) An integrated framework for reconfiguration of cellular manufacturing systems using virtual cells. Prod Plan Control 13(4):381–393
Safaei N, Saidi-Mehrabad M, Jabal-Ameli MS (2008) A hybrid simulated annealing for solving an extended model of dynamic cellular manufacturing system. Eur J Oper Res 185(2008):563–592
Sakhaii M, Tavakkoli-Moghaddam R, Bagheri M, Vatani B (2016) A robust optimization approach for an integrated dynamic cellular manufacturing system and production planning with unreliable machines. Appl Math Modell 40(1):169–191
Selim HM, Askin RG, Vakharia AJ (1998) cell formation group technology, review evaluation and direction for future research. Comput Ind Eng 34(1):3–20
Singh N, Rajamani D (2012) Cellular manufacturing systems: design, planning and control. Springer Science & Business Media, Berlin
Tavakkoli-Moghaddam R, Aryanezhad MB, Safaei N, Azaron A (2005) Solving a dynamic cell formation problem using metaheuristics. Appl Math Comput 170:761–780
Tavakkoli-Moghaddam R, Ranjbar-Bourani M, Amin GR, Siadat A (2012) A cell formation problem considering machine utilization and alternative process routes by scatter search. J Intell Manuf 23(4):1127–1139
Walpole RE, Myers RH, Myers SL, Ye K (1993) Probability and statistics for engineers and scientists, vol 5. Macmillan, New
York
Zhao C, Wu Z (2000) A genetic algorithm for manufacturing cellformation whit multi routes and multiple objective. Int J Prod Res 38(2):385–395
