Multilevel Lot-Sizing with Inventory Bounds

Hark Chin Hwang; Wilco van den Heuvel; Albert P.M. Wagelmans

doi:10.1287/ijoc.2022.0216

Multilevel Lot-Sizing with Inventory Bounds

Hark Chin Hwang, Wilco van den Heuvel, Albert P.M. Wagelmans

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

2 Citations (Scopus)

Abstract

We consider a single-item multilevel lot-sizing problem with a serial structure where one of the levels has an inventory capacity (the bottleneck level). We propose a novel dynamic programming algorithm combining Zangwill’s approach for the uncapacitated problem and the basis-path approach for the production capacitated problem. Under reasonable assumptions on the cost parameters the time complexity of the algorithm is O(LT⁶) with L the number of levels in the supply chain and T the length of the planning horizon. Computational tests show that our algorithm is significantly faster than the commercial solver CPLEX applied to a standard formulation and can solve reasonably sized instances up to 48 periods and 12 levels in a few minutes.

Original language	English
Pages (from-to)	1470-1490
Number of pages	21
Journal	INFORMS Journal on Computing
Volume	35
Issue number	6
DOIs	https://doi.org/10.1287/ijoc.2022.0216
Publication status	Published - Nov 2023

Bibliographical note

Publisher Copyright:
Copyright: © 2023 INFORMS.

Keywords

dynamic programming
inventory bound
inventory-production: deterministic
multilevel lot-sizing

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10.1287/ijoc.2022.0216

Cite this

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title = "Multilevel Lot-Sizing with Inventory Bounds",

abstract = "We consider a single-item multilevel lot-sizing problem with a serial structure where one of the levels has an inventory capacity (the bottleneck level). We propose a novel dynamic programming algorithm combining Zangwill{\textquoteright}s approach for the uncapacitated problem and the basis-path approach for the production capacitated problem. Under reasonable assumptions on the cost parameters the time complexity of the algorithm is O(LT6) with L the number of levels in the supply chain and T the length of the planning horizon. Computational tests show that our algorithm is significantly faster than the commercial solver CPLEX applied to a standard formulation and can solve reasonably sized instances up to 48 periods and 12 levels in a few minutes.",

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N2 - We consider a single-item multilevel lot-sizing problem with a serial structure where one of the levels has an inventory capacity (the bottleneck level). We propose a novel dynamic programming algorithm combining Zangwill’s approach for the uncapacitated problem and the basis-path approach for the production capacitated problem. Under reasonable assumptions on the cost parameters the time complexity of the algorithm is O(LT6) with L the number of levels in the supply chain and T the length of the planning horizon. Computational tests show that our algorithm is significantly faster than the commercial solver CPLEX applied to a standard formulation and can solve reasonably sized instances up to 48 periods and 12 levels in a few minutes.

AB - We consider a single-item multilevel lot-sizing problem with a serial structure where one of the levels has an inventory capacity (the bottleneck level). We propose a novel dynamic programming algorithm combining Zangwill’s approach for the uncapacitated problem and the basis-path approach for the production capacitated problem. Under reasonable assumptions on the cost parameters the time complexity of the algorithm is O(LT6) with L the number of levels in the supply chain and T the length of the planning horizon. Computational tests show that our algorithm is significantly faster than the commercial solver CPLEX applied to a standard formulation and can solve reasonably sized instances up to 48 periods and 12 levels in a few minutes.

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Multilevel Lot-Sizing with Inventory Bounds

Abstract

Bibliographical note

Keywords

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Study Results from Kyung Hee University Broaden Understanding of Computing (Multilevel Lot-Sizing with Inventory Bounds)

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Multilevel Lot-Sizing with Inventory Bounds

Abstract

Bibliographical note

Keywords

Access to Document

Other files and links

Fingerprint

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Study Results from Kyung Hee University Broaden Understanding of Computing (Multilevel Lot-Sizing with Inventory Bounds)

Cite this