Optimal design of stochastic production lines: a dynamic programming approach |
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| Authors: | Karen L. Donohue Wallace J. Hopp Mark L. Spearman |
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| Affiliation: | a Department of Operations and Management Science, The Carlson School of the University of Minnesota, Minneapolis, MN, USAb Department of Industrial Engineering and Management Sciences, Northwestern University, Evanston, IL, USAc School of Industrial and Systems Engineering, Georgia Institute of Technology, Atlanta, GA, USA |
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| Abstract: | We consider the problem of choosing the number and type of machines for each station in a new production line where the sequence of processes (i.e., manufacturing recipe) has already been established. We formulate a model to minimize cost (investment plus operating) subject to constraints on throughput and cycle time. Using queueing network approximations within a dynamic programming framework, we develop a line design algorithm that works in station-wise fashion. For computational tractability, we must discretize a continuous state space. However, we are able to compute bounds on the error in the cost function as a guide to the appropriate choice of grid size. We conclude by applying our algorithm to an industrial problem that motivated this work. |
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