How to cite this paper
Kanakavalli, P., Vommi, V & Medikondu, N. (2018). Fuzzy heuristic algorithm for simultaneous scheduling problems in flexible manufacturing system.Management Science Letters , 8(12), 1319-1330.
Refrences
Babu, K., Babu, V., & Medikondu, N. (2018). Implementation of heuristic algorithms to synchronized planning of machines and AGVs in FMS. Management Science Letters, 8(6), 543–554.
Bilge, Ü., & Ulusoy, G. (1995). A time window approach to simultaneous scheduling of machines and material handling system in an FMS. Operations Research, 43(6), 1058-1070.
Campbell, H.G., Dudek, R.A., & Smith, M.L. (1970). A heuristic algorithm for the n-job m-machine sequencing problem. Management Science, 16(10), B630-637
Fang, K., Uhan, N., Zhao, F., & Sutherland, J. (2011). A new shop scheduling approach in support of sustainable manufacturing. 18th CIRP LCE Conference, Braunschweig, 305–310.
Gupta, J. N. (1971). A functional heuristic algorithm for the flowshop scheduling problem. Journal of the Operational Research Society, 22(1), 39-47.
Han, M.H., & McGinnis, L.F. (1989) Flow control in flexible manufacturing: minimization of stock out cost. International Journal of Production Research, 27(4), 701-715.
Heydari, M., & Mohammadi, E. (2010). A fuzzy heuristic algorithm for the flow shop scheduling prob-lem. The Journal of Mathematics and Computer Science, 4, 349-354.
Johnson, S. M. (1954). Optimal two- and three-Stage production schedules with setup times included. Naval Logistics Quarterly, 1(1), 61–68.
Kusiak, A. (1986). FMS scheduling-a crucial element in an expert system control architecture. IEEE In-ternational Conference on Robotics and Automation, 653-658.
Modrák, V., & Pandian, R. S. (2010). Flow shop scheduling algorithm to minimize completion time for n-jobs m-machines problem. Tehnicki vjesnik, 17(3), 273-2783.
Nageswararao, M., Narayanarao, K., & Rangajanardhana, G. (2017). Integrated scheduling of machines and AGVs in FMS by using dispatching rules. Journal of Production Engineering, 20(1), 75-84.
Nasr, N., & Elsayed, E. A. (1990). Job shop scheduling with alternative machines. The international journal of production research, 28(9), 1595-1609.
Nawaz, M., Enscore, E., & Ham, I. (1983). A heuristic algorithm for the m machine n job flow shop se-quence problem. Omega, 11(1), 91-95.
Pach, C., Berger, T., Sallez, Y., Bonte, T., Adam, E., & Trentesaux, D. (2014). Reactive and energy-aware scheduling of flexible manufacturing systems using potential fields. Computers in Industry, 65(3), 434-448.
Palmer, D. S. (1965). Sequencing jobs through a multi-stage process in the minimum total time—a quick method of obtaining a near optimum. Journal of the Operational Research Society, 16(1), 101-107.
Rathinam, B., Govindan, K., Neelakanden, B., & Raghavan S.S. (2015). Rule based heuristic approach for minimizing total flow time in permutation flow shop scheduling. Tehnički vjesnik – Tehnical Ga-zette, 22(1), 25-32.
Ruiz, R., & Stützle, T. (2007). A simple and effective iterated greedy algorithm for the permutation flowshop scheduling problem. European Journal of Operational Research, 177(3), 2033-2049.
Sabuncuoglu, I., & Hommertzheim, D. L. (1993). Experimental investigation of an FMS due-date scheduling problem: Evaluation of machine and AGV scheduling rules. International Journal of Flexible Manufacturing Systems, 5(4), 301-323.
Salido, M. A., Escamilla, J., Barber, F. & Giret, A. (2017). Rescheduling in job-shop problems for sus-tainable manufacturing systems. Journal of Cleaner Production, 162, S121-S132.
Semančo, P., & Modrák, V. (2012). A comparison of constructive heuristics with the objective of min-imizing makespan in the flow-shop scheduling problem. Acta Polytechnica Hungarica, 9(5), 177-190.
Stecke, K. E. (1985). Design, planning, scheduling, and control problems of flexible manufacturing sys-tems. Annals of Operations research, 3(1), 1-12.
Vallada, E., & Ruiz, R. (2009). Cooperative metaheuristics for the permutation flow shop scheduling problem. European Journal of Operational Research, 193(2), 365-376.
Zupan, H., Herakovic, N., Starbek, M., & Kusar, J. (2016). Hybride algorithm based on priority rules for simulation of workshop production. International Journal of Simulation Modelling, 15(1), 29-41.
Bilge, Ü., & Ulusoy, G. (1995). A time window approach to simultaneous scheduling of machines and material handling system in an FMS. Operations Research, 43(6), 1058-1070.
Campbell, H.G., Dudek, R.A., & Smith, M.L. (1970). A heuristic algorithm for the n-job m-machine sequencing problem. Management Science, 16(10), B630-637
Fang, K., Uhan, N., Zhao, F., & Sutherland, J. (2011). A new shop scheduling approach in support of sustainable manufacturing. 18th CIRP LCE Conference, Braunschweig, 305–310.
Gupta, J. N. (1971). A functional heuristic algorithm for the flowshop scheduling problem. Journal of the Operational Research Society, 22(1), 39-47.
Han, M.H., & McGinnis, L.F. (1989) Flow control in flexible manufacturing: minimization of stock out cost. International Journal of Production Research, 27(4), 701-715.
Heydari, M., & Mohammadi, E. (2010). A fuzzy heuristic algorithm for the flow shop scheduling prob-lem. The Journal of Mathematics and Computer Science, 4, 349-354.
Johnson, S. M. (1954). Optimal two- and three-Stage production schedules with setup times included. Naval Logistics Quarterly, 1(1), 61–68.
Kusiak, A. (1986). FMS scheduling-a crucial element in an expert system control architecture. IEEE In-ternational Conference on Robotics and Automation, 653-658.
Modrák, V., & Pandian, R. S. (2010). Flow shop scheduling algorithm to minimize completion time for n-jobs m-machines problem. Tehnicki vjesnik, 17(3), 273-2783.
Nageswararao, M., Narayanarao, K., & Rangajanardhana, G. (2017). Integrated scheduling of machines and AGVs in FMS by using dispatching rules. Journal of Production Engineering, 20(1), 75-84.
Nasr, N., & Elsayed, E. A. (1990). Job shop scheduling with alternative machines. The international journal of production research, 28(9), 1595-1609.
Nawaz, M., Enscore, E., & Ham, I. (1983). A heuristic algorithm for the m machine n job flow shop se-quence problem. Omega, 11(1), 91-95.
Pach, C., Berger, T., Sallez, Y., Bonte, T., Adam, E., & Trentesaux, D. (2014). Reactive and energy-aware scheduling of flexible manufacturing systems using potential fields. Computers in Industry, 65(3), 434-448.
Palmer, D. S. (1965). Sequencing jobs through a multi-stage process in the minimum total time—a quick method of obtaining a near optimum. Journal of the Operational Research Society, 16(1), 101-107.
Rathinam, B., Govindan, K., Neelakanden, B., & Raghavan S.S. (2015). Rule based heuristic approach for minimizing total flow time in permutation flow shop scheduling. Tehnički vjesnik – Tehnical Ga-zette, 22(1), 25-32.
Ruiz, R., & Stützle, T. (2007). A simple and effective iterated greedy algorithm for the permutation flowshop scheduling problem. European Journal of Operational Research, 177(3), 2033-2049.
Sabuncuoglu, I., & Hommertzheim, D. L. (1993). Experimental investigation of an FMS due-date scheduling problem: Evaluation of machine and AGV scheduling rules. International Journal of Flexible Manufacturing Systems, 5(4), 301-323.
Salido, M. A., Escamilla, J., Barber, F. & Giret, A. (2017). Rescheduling in job-shop problems for sus-tainable manufacturing systems. Journal of Cleaner Production, 162, S121-S132.
Semančo, P., & Modrák, V. (2012). A comparison of constructive heuristics with the objective of min-imizing makespan in the flow-shop scheduling problem. Acta Polytechnica Hungarica, 9(5), 177-190.
Stecke, K. E. (1985). Design, planning, scheduling, and control problems of flexible manufacturing sys-tems. Annals of Operations research, 3(1), 1-12.
Vallada, E., & Ruiz, R. (2009). Cooperative metaheuristics for the permutation flow shop scheduling problem. European Journal of Operational Research, 193(2), 365-376.
Zupan, H., Herakovic, N., Starbek, M., & Kusar, J. (2016). Hybride algorithm based on priority rules for simulation of workshop production. International Journal of Simulation Modelling, 15(1), 29-41.