Constraint programming for computing non-stationary (R, S) inventory policies

S. Armagan Tarim; Barbara M. Smith

doi:10.1016/j.ejor.2006.11.048

Constraint programming for computing non-stationary (R, S) inventory policies

S. Armagan Tarim
, Barbara M. Smith

Division of Information Systems (Interdisciplinary)

University College Cork

Research output: Contribution to journal › Article › peer-review

28 Citations (Scopus)

Abstract

This paper proposes a constraint programming model for computing the finite horizon single-item inventory problem with stochastic demands in discrete time periods with service-level constraints under the non-stationary version of the "periodic review, order-up-to-level" policy (i.e., non-stationary (R, S) or, simply (R_n, S_n)). It is observed that the modeling process is more natural and the required number of variables is smaller compared to the MIP formulation of the same problem. The computational tests show that the CP approach is more tractable than the conventional MIP formulation. Two different domain reduction methods are proposed to improve the computational performance of solution algorithms. The numerical experiments confirmed the effectiveness of these methods.

Original language	English
Pages (from-to)	1004-1021
Number of pages	18
Journal	European Journal of Operational Research
Volume	189
Issue number	3
DOIs	https://doi.org/10.1016/j.ejor.2006.11.048
Publication status	Published - 16 Sept 2008

Keywords

Constraint programming
Demand uncertainty
Integer programming
Inventory control

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10.1016/j.ejor.2006.11.048

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title = "Constraint programming for computing non-stationary (R, S) inventory policies",

abstract = "This paper proposes a constraint programming model for computing the finite horizon single-item inventory problem with stochastic demands in discrete time periods with service-level constraints under the non-stationary version of the {"}periodic review, order-up-to-level{"} policy (i.e., non-stationary (R, S) or, simply (Rn, Sn)). It is observed that the modeling process is more natural and the required number of variables is smaller compared to the MIP formulation of the same problem. The computational tests show that the CP approach is more tractable than the conventional MIP formulation. Two different domain reduction methods are proposed to improve the computational performance of solution algorithms. The numerical experiments confirmed the effectiveness of these methods.",

keywords = "Constraint programming, Demand uncertainty, Integer programming, Inventory control",

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journal = "European Journal of Operational Research",

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T1 - Constraint programming for computing non-stationary (R, S) inventory policies

AU - Tarim, S. Armagan

AU - Smith, Barbara M.

PY - 2008/9/16

Y1 - 2008/9/16

N2 - This paper proposes a constraint programming model for computing the finite horizon single-item inventory problem with stochastic demands in discrete time periods with service-level constraints under the non-stationary version of the "periodic review, order-up-to-level" policy (i.e., non-stationary (R, S) or, simply (Rn, Sn)). It is observed that the modeling process is more natural and the required number of variables is smaller compared to the MIP formulation of the same problem. The computational tests show that the CP approach is more tractable than the conventional MIP formulation. Two different domain reduction methods are proposed to improve the computational performance of solution algorithms. The numerical experiments confirmed the effectiveness of these methods.

AB - This paper proposes a constraint programming model for computing the finite horizon single-item inventory problem with stochastic demands in discrete time periods with service-level constraints under the non-stationary version of the "periodic review, order-up-to-level" policy (i.e., non-stationary (R, S) or, simply (Rn, Sn)). It is observed that the modeling process is more natural and the required number of variables is smaller compared to the MIP formulation of the same problem. The computational tests show that the CP approach is more tractable than the conventional MIP formulation. Two different domain reduction methods are proposed to improve the computational performance of solution algorithms. The numerical experiments confirmed the effectiveness of these methods.

KW - Constraint programming

KW - Demand uncertainty

KW - Integer programming

KW - Inventory control

UR - https://www.scopus.com/pages/publications/40849133916

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DO - 10.1016/j.ejor.2006.11.048

M3 - Article

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SN - 0377-2217

VL - 189

SP - 1004

EP - 1021

JO - European Journal of Operational Research

JF - European Journal of Operational Research

IS - 3

ER -

Constraint programming for computing non-stationary (R, S) inventory policies

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Keywords

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