本研究假設供應鏈系統採用order-up-to之存貨政策，並且以移動平均法進行需求預測，當前置時間變動時，利用系統模擬觀察長鞭效應與成本之關係。研究中先建構兩階段供應鏈系統，在前置時間變動下探討長鞭效應與成本之關係。在相同的條件下，將供應鏈系統拓展至三階段，同樣透過前置時間之變動來探討長鞭效應與成本之關係。本研究模擬之結果發現，長鞭效應與成本之關係，並不一定是單調的結果，系統中有可能會出現長鞭效應雖然增加，但是系統成本卻減少的情形，這個結果，與文獻上成本會隨著長鞭效應而增加的假設有所差別。本研究將針對模擬之結果進行分析與說明，進一步在控制長鞭效應與成本上提出建議，希望能協助企業達到降低成本，提昇服務水準之目標。

中文部分
王立志，系統化運籌與供應鏈管理， 台中市，滄海，民國88年。

李瓊英撰，郭瑞祥與陳正剛指導，「長鞭效應下，最佳存貨策略的決定與環境變數效果的探討」，國立台灣大學商學研究所碩士論文，民國89年6月。

張有恆，物流管理，台北市，華泰，民國87年。

陳銘崑與鄭穎聰，「供應鏈生產及存貨政策之長鞭效應分析」，產業論壇，第四卷第一期，民國91年4月。

盧儒瓊撰，彭文理和李慶恩指導，「預測週期和預測方式對長鞭效應的影響」，國立交通大學工業工程與管理研究所碩士論文，民國90年6月。

英文部分
Ballou, R. H.. Business Logistic Management, 4th, NJ, Prentice-Hall, 1999.

Bagchi, U., J. C. Hayya, and C. –H. Chu, “The Effect of Lead- Time Variability: The Case of Independent Demand,” Journal of Operations Management, 6(2), 159-177, 1986.

Blandchard, O. J., “The Production and Inventory Behavior of The American Automobile Industry,” Journal of Political Economy, 91(3), 365-400, 1983.

Blinder, A. S., “Inventories and Sticky Prices,” American Economic Review, 72, 334-349, 1982.

Blinder, A. S., “Can the Production Smoothing Model of Inventory Behavior be Saved?,” Quarterly Journal of Economics, 101(3), 431-454, 1986.

Caplin, A. S., “The Variability of Aggregate Demand with (s, S) Inventory Policies,” Econometrica, 53, 1395-1409, 1985.

Chopra, S., & P. Meindl, Supply Chain Management: Strategy, Planning and Operation, NJ, Prentice-Hall, 2001.

Chen, F. Y., Z. Drezner, J. K. Ryan, and D. Simchi-Levi, “The Bullwhip Effect: Managerial Insights on the Impact of Forecasting and Information on Variability in Supply Chain,” In Quantitative Models for Supply Chain Management, S. Tayur, R. Ganeshan, and M. Magazine, eds. Norwell, MA, Kluwer Academic Publishing, 1998, chap.14.

Diehl, E. and J. D. Sterman, “Effects of Feedback complexity on Dynamic Decision Making,” Organization Behavior Human Decision Process, 62(2), 198-215, 1989.

Forrester, J., Industrial Dynamics, NY, MIT Press, and John Wiley & Sons, Inc., 1961.

Kahn, J. A., “Inventory and the Volatility of Production,” American Economic Review, 77(4), 667-679, 1987.

Kumar, S. and S. Arora, “Effect of Inventory Miscount and Non-inclusion of Lead Time Variability on Inventory System Performance,” IIE Transactions, 24(2), 96-163, 1992.

Lee, H., P. Padmanabhan, and S. Whang, “The Bullwhip Effect in Supply Chains,” Sloan Management Review, 38(3), 93-102, 1997a.

Liao, C. J. and C. H. Shyu, “Stochastic Inventory Model with Controllable Lead Time,” International Journal of System Science, 22(11), 2347-2354, 1991.

Lee, H., P. Padmanabhan, and S. Whang, “Information Distortion in a Supply Chain: The Bullwhip Effect,” Management Science, 43(4), 546-558, 1997b.

Metters, R., “Quantifying the Bullwhip Effect in Supply Chain,” Journal of Operations Management, 15, 89-100, 1997.

Naish, H. F., “Production Smoothing in the Linear Quadratic Inventory Model,” Quarterly Journal of Economics, 104(425), 864-875, 1994.

Silver, E. A., D. F. Pyke, and R. Peterson, Inventory Management and Production Planning and Scheduling, 3rd, NY, John Wiley & Sons, Inc.,1998.

Simchi-Levi, D., P. Kaminsky, and E. Simchi-Levi, Designing and Managing the Supply Chain: Concept, Strategies, and Case Studies, Boston, McGraw-Hill, 2000.

Stadtler, H. & C. Kilger, eds. Supply Chain Management and Advanced Planning, NY, Springer-Verlag, 2000.

Stalk, G. Jr. and T. M. Hout, Competing Against Time, The Free Press, NY, 1990.

Sterman, J. D., “Modeling Managerial Behavior: Misperceptions of Feedback in a Dynamic Decision Making Experiment,” Management Science, 35(3), 321-339, 1989.