A Single-Unit Decomposition Approach to Multiechelon Inventory Systems

A Single-Unit Decomposition Approach to Multiechelon Inventory Systems

We show the optimality of state-dependent echelon base-stock policies in uncapacitated serial inventory systems with Markov-modulated demand and Markov-modulated stochastic lead times in the absence of order crossing. Our results cover finite-time horizon problems as well as infinite-time horizon fo...

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Veröffentlicht in:Operations research 2008-09, Vol.56 (5), p.1089-1103
Hauptverfasser: Muharremoglu, Alp, Tsitsiklis, John N
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Analysis
Applied sciences
Average cost
Carrying costs
Cost efficiency
Exact sciences and technology
Inventories
Inventory control
Inventory control, production control. Distribution
inventory/production
inventory/production: policies
Markov chains
Markov processes
Mathematical monotonicity
multiechelon
Operational research and scientific management
Operational research. Management science
Optimal policy
Optimization algorithms
Production management
Random variables
review/lead times
Stochastic models
Studies
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Beschreibung
Zusammenfassung:We show the optimality of state-dependent echelon base-stock policies in uncapacitated serial inventory systems with Markov-modulated demand and Markov-modulated stochastic lead times in the absence of order crossing. Our results cover finite-time horizon problems as well as infinite-time horizon formulations, with either a discounted or an average cost criterion. We employ a novel approach, based on a decomposition of the problem into a series of single-unit single-customer problems that are essentially decoupled. Besides providing a simple proof technique, this approach also gives rise to efficient algorithms for the calculation of the base-stock levels.
ISSN:0030-364X
1526-5463
DOI:10.1287/opre.1080.0620