References
- Alden, J.M., Burns, L.D., Costy, T., Hutton, R.D., Jackson, C.A., Kim, D.S., Kohls, K.A., Owen, J.H., Turnquist, M.A. and Veen, D.J.V. (2006) General Motors increases its production throughput. Interfaces, 36(1), 6–25.
- Alfieri, A. and Matta, A. (2012) Mathematical programming formulations for approximate simulation of multistage production systems. European Journal of Operational Research, 219(3), 773–783.
- Alfieri, A., Matta, A. and Pastore, E. (2016) A column generation algorithm for the buffer allocation problem approximated by the time buffer concept. Manufacturing Modelling, Management, and Control, 49(12), 739–744.
- Alfieri, A., Matta, A. and Pedrielli, G. (2015) Mathematical programming models for joint simulation-optimization applied to closed queueing networks. Annals of Operations Research, 231(1), 105–127.
- Axsäter, S. and Rosling, K. (1993) Installation vs. echelon stock policies for multilevel inventory control. Management Science, 39(10), 1274–1280.
- Bolch, G., Greiner, S., de Meer, H. and Trivedi, K.S. (2006) Queueing Networks and Markov Chains: Modeling and Performance Evaluation with Computer Science Applications, 2nd ed. John Wiley & Sons, Inc., Hoboken, NJ.
- Burman, M., Gershwin, S.B. and Suyematsu, C. (1998) Hewlett-Packard uses operations research to improve the design of a printer production line. Interfaces, 28(1), 24–36.
- Buzacott, J.A. (1971) The role of inventory banks in flow-line production systems. International Journal of Production Research, 9(4), 425–436.
- Chen, J.C. and Chen, L. (1993) A fast simulator for tandem queueing systems. Computers and Industrial Engineering, 24(2), 267–280.
- Chiba, E. (2015) Heuristics for the buffer allocation problem with collision probability using computer simulation. Mathematical Problems in Engineering, 2015, 1–7.
- Colledani, M., Ekvall, M., Lundholm, T., Moriggi, P., Polato, A. and Tolio, T. (2010) Analytical methods to support continuous improvements at Scania. International Journal of Production Research, 48(7), 1913–1945.
- Costa, A., Alfieri, A., Matta, A. and Fichera, S. (2015) A parallel tabu search for solving the primal buffer allocation problem in serial production systems. Computers & Operations Research, 64, 97–112.
- Dallery, Y. and Gershwin, S.B. (1992) Manufacturing flow line systems: A review of models and analytical results. Queueing Systems, 12(1), 3–94.
- Demir, L., Tunali, S. and Eliiyi, D.T. (2014) The state of the art on buffer allocation problem: A comprehensive survey. Journal of Intelligent Manufacturing, 25(3), 371–392.
- Gershwin, S.B. and Schor, J.E. (2000) Efficient algorithms for buffer space allocation. Annals of Operations Research, 93(1), 117–144.
- Helber, S., Schimmelpfeng, K., Stolletz, R. and Lagershausen, S. (2011) Using linear programming to analyze and optimize stochastic flow lines. Annals of Operations Research, 182(1), 193–211.
- Kolb, O. and Göttlich, S. (2015) A continuous buffer allocation model using stochastic processes. European Journal of Operational Research, 242(3), 865–874.
- Köse, S.Y., Demir, L., Tunali, S. and Eliiyi, D.T. (2015) Capacity improvement using simulation optimization approaches: A case study in the thermotechnology industry. Engineering Optimization, 47(2), 149–164.
- Kose, S.Y. and Kilincci, O. (2015) Hybrid approach for buffer allocation in open serial production lines. Computers & Operations Research, 60, 67–78.
- Li, J. (2013) Continuous improvement at Toyota manufacturing plant: Applications of production systems engineering methods. International Journal of Production Research, 51(23–24), 7235–7249.
- Li, J. and Meerkov, S.M. (2009) Production Systems Engineering. Springer, Boston, MA.
- Li, L., Qian, Y.L., Du, K. and Yang, Y.M. (2016) Analysis of approximately balanced production lines. International Journal of Production Research, 54(3), 1–18.
- Li, L., Qian, Y., Yang, Y.M. and Du, K. (2016) A fast algorithm for buffer allocation problem. International Journal of Production Research, 54(11), 3243–3255.
- Liberopoulos, G., Takoumis, K. and Pandelis, D. (2015) Using shadow prices in a linear programing representation of kanban system dynamics to maximize system throughput, in Proceedings of the 10th international conference on Stochastic Models of Manufacturing and Service Operations, pp. 119–126. University of Thessaly Press, Volos, Greece.
- Liberopoulos, G. and Tsarouhas, P.H. (2002) Systems analysis speeds up Chipita’s food-processing line. Interfaces, 32(3), 62–76.
- Matta, A. (2008) Simulation optimization with mathematical programming representation of discrete event systems. In Proceedings of the 2008 Winter Simulation Conference, IEEE Press, Piscataway, NJ, pp. 1393–1400.
- Matta, A., Pedrielli, G. and Alfieri, A. (2014) Event relationship graph lite: Event based modeling for simulation-optimization of control policies in discrete event systems, in Proceedings of the 2014 Winter Simulation Conference, IEEE Press, Piscataway, NJ, pp. 3983–3994.
- Pedrielli, G., Alfieri, A. and Matta, A. (2015) Integrated simulation–optimisation of pull control systems. International Journal of Production Research, 53(14), 4317–4336.
- Saliby, E. (1990) Descriptive sampling: A better approach to Monte Carlo simulation. The Journal of the Operational Research Society, 41(12), 1133–1142.
- Shi, C. and Gershwin, S.B. (2016a) Lead time distribution of three-machine two-buffer lines with unreliable machines and finite buffers. Proceedings of the 10th international conference on Stochastic Models of Manufacturing and Service Operations, pp. 211–220, University of Thessaly Press, Volos, Greece.
- Shi, C. and Gershwin, S.B. (2016b) A segmentation approach for solving buffer allocation problems in large production systems. International Journal of Production Research, 54(20), 6121–6141.
- Silver, E.A., Pyke, D.F. and Peterson, R. (1998) Inventory Management and Production Planning and Scheduling, third edition, John Wiley: New York, NY.
- Smith, J.M. (2016) Joint optimization of buffers and network population for closed finite queueing systems. International Journal of Production Research, 54(17), 5111–5135.
- Smith, J.M. and Cruz, F.R.B. (2005) The buffer allocation problem for general finite buffer queueing networks. IIE Transactions, 37(4), 343–365.
- Vergara, H.A. and Kim, D.S. (2009) A new method for the placement of buffers in serial production lines. International Journal of Production Research, 47(16), 4437–4456.
- Wang, G., Shin, Y.W. and Moon, D.H. (2016) Comparison of three flow line layouts with unreliable machines and profit maximization. Flexible Services and Manufacturing Journal, 28(4), 669–693.
- Weiss, S., Schwarz, J.A. and Stolletz, R. (2016) The buffer allocation problem: Formulations, solution approaches, and test instances. Advance online publication. https://doi.org/10.2139/ssrn.2843435
- Weiss, S. and Stolletz, R. (2015) Buffer allocation in stochastic flow lines via sample-based optimization with initial bounds. OR Spectrum, 37(4), 869–902.