A Note on the Applicability of Federgruen and Zheng S Algorithm for Computing Optimal (R,Q) Inventory Policies
A Note on the Applicability of Federgruen and Zheng S Algorithm for Computing Optimal (R,Q) Inventory Policies

Author: Harry Groenevelt

Publisher:

Published: 2007

Total Pages: 0

ISBN-13:

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Care must be taken in extending the formulation and solution methodology of Federgruen and Zheng (1992) to include a stockout cost of a different dimensionality: $/unit, rather than $/unit/year. Federgruen and Zheng formulate this extended model for Poisson demand. We modify their formulation to allow for a much broader class of demand processes, and show via counter examples that the elegant solution methodology developed in Federgruen and Zheng cannot be brought to bear upon the more general problems.

Perishable Inventory Problems
Perishable Inventory Problems

Author: Huanan Zhang

Publisher:

Published: 2017

Total Pages: 0

ISBN-13:

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We develop the first nonparametric learning algorithm for periodic-review perishable inventory systems. In contrast to the classical perishable inventory literature, we assume that the firm does not know the demand distribution a priori and makes replenishment decision in each period based only on the past sales (censored demand) data. It is well-known that even with complete information about the demand distribution a priori, the optimal policy for this problem does not possess a simple structure. Motivated by the studies in the literature showing that base-stock policies perform near-optimal in these systems, we focus on finding the best base-stock policy. We first establish a convexity result, showing that the total holding, lost-sales and outdating cost is convex in the base-stock level. Then, we develop a nonparametric learning algorithm that generates a sequence of order-up-to levels whose running average cost converges to the cost of the optimal base-stock policy. We establish a square-root convergence rate of the proposed algorithm, which is the best possible. Our algorithm and analyses require a novel method for computing a valid cycle subgradient and the construction of a bridging problem, which significantly departs from previous studies.

Supply Chain Contract Management
Supply Chain Contract Management

Author: Marcel Sieke

Publisher: Springer

Published: 2019-03-20

Total Pages: 158

ISBN-13: 3658243821

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In recent years, the design of contracts in supply chains has received significant attention from researchers and practitioners. Companies try to improve their profits by designing efficient contracts that ensure a high availability of the product at a low cost. In this book the author presents a quantitative approach for designing optimal supply chain contracts. Firstly, service level contracts, which are frequently used between a supplier and a manufacturer, are analyzed. For this contract type, optimal contract parameter combinations are identified that lead to a coordinated supply chain. Secondly, an optimal contract selection strategy is developed for a supply chain where a manufacturer can choose among multiple potential buyers. Potential readership includes scholars of supply chain management and management science, graduate students interested in these areas as well as interested practitioners involved in negotiating contracts.