A three-phase simulation methodology for generating accurate and precise cycle time–throughput curves
by Gerald T. Mackulak, John W. Fowler, Sungmin Park, Jennifer E. McNeill
International Journal of Simulation and Process Modelling (IJSPM), Vol. 1, No. 1/2, 2005

Abstract: Cycle time–throughput (CT–TH) curves allow a visual examination of the relationship between projected average cycle time and throughput. They permit one to appraise sensitivity of cycle time to start rate through curvature or steepness. This paper presents an overall framework for efficiently generating simulation-based CT–TH curves that are both accurate and precise. The framework presented in this paper consists of three phases: fixed sample allocation methods; prioritisation of design point inclusion; run length determination through sequential stopping rules. The first phase proposes how to efficiently generate a precise and accurate CT–TH curve given fixed sample size limitations. The second phase provides a set of sequentially ranked design points for systematic simulation experimentation. Finally, the third phase provides a sequential stopping rule that is developed to determine the length of a simulation run based on a time series forecasting procedure. A case study is presented which illustrates the methodology and highlights the fact that the technique provides workable guidelines for both experienced and novice simulation practitioners faced with the task of generating an accurate and precise cycle time–throughput curve. The case study illustrates that this framework is able to produce an equivalently accurate and precise CT–TH curve, for a five station M/M/1 queuing model at a cost of 25% of the samples required using the naïve approach.

Online publication date: Fri, 27-May-2005

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