Title: Applying a new ordering policy in a two-echelon inventory system with Poisson demand rate for retailers and transportation cost

Authors: Rasoul Haji, Hamed Tayebi, Babak Haji

Addresses: Department of Industrial Engineering, Sharif University of Technology, Azadi Av., Tehran, Iran. ' Department of Industrial Engineering, Sharif University of Technology, Azadi Av., Tehran, Iran. ' Industrial and Systems Engineering Department, University of Southern California, University Park Campus, Los Angeles, USA

Abstract: This paper deals with a two-echelon inventory system consisting of one supplier and N retailers. Each retailer faces an independent Poisson demand with the same rate and applies a new ordering policy called one-for-one-period ordering policy for its inventory control. In this ordering policy, the order size is equal to one and the time interval between any two consecutive orders forms a common fixed cycle. Thus, the supplier faces a deterministic demand and adopts a deterministic inventory policy. At each cycle, he orders a batch of size N to his own supplier. Upon receipt of each batch, he sends one unit of the product to each retailer with a transportation cost. In this paper, for the above system, we first derive the total cost function per unit time. Further, we obtain the conditions under which the total cost function is convex. Finally, we obtain the optimal time interval between any two consecutive orders as well as the optimal average inventory for each retailer.

Keywords: one-for-one-period ordering policy; Poisson demand; two echelon inventory; lost sales; supply chain management; SCM; transport costs; inventory control.

DOI: 10.1504/IJBPSCM.2011.039971

International Journal of Business Performance and Supply Chain Modelling, 2011 Vol.3 No.1, pp.20 - 27

Published online: 30 Sep 2014 *

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