A normal approximation model for safety stock optimization in a two-echelon distribution system
Publication type
Vlerick strategic journal articlePublication Year
2010Journal
Journal of the Operational Research SocietyPublication Volume
61Publication Issue
1Publication Begin page
156Publication End page
163
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This paper presents an approximation model for the retailer replenishment lead-times in a two-echelon distribution system, and discusses its implementation for safety stock optimization in a one-warehouse and N-identical retailers system. The model assumes normality of demand and nominal lead times. It takes into account not only the averages of these parameters but also their variances. This approximation model is first tested on a two-echelon, one-warehouse and N-identical retailers system using discrete event simulation. It is then applied to optimize the safety stock in a two-echelon distribution system of a European market leader in the production and distribution of air conditioning equipment. Results of this implementation are analysed and discussed in detail.ae974a485f413a2113503eed53cd6c53
10.1057/jors.2008.150