Simulation optimization for the stochastic economic lot scheduling problem with sequence-dependent setup times

Nils Löhndorf; Manuel Riel; Stefan Minner

doi:10.1016/j.ijpe.2014.05.006

Simulation optimization for the stochastic economic lot scheduling problem with sequence-dependent setup times

Nils Löhndorf, Manuel Riel, Stefan Minner

Chair of Logistics and Supply Chain Management

Vienna University of Economics and Business Administration

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

21 Scopus citations

Abstract

We consider the stochastic economic lot scheduling problem (SELSP) with lost sales and random demand where switching between products is subject to sequence-dependent setup times. We propose a solution based on simulation optimization using an iterative two-step procedure which combines global policy search with local search heuristics for the traveling salesman sequencing subproblem. To optimize the production cycle, we compare two criteria: minimizing total setup times and evenly distributing setups to obtain a more regular production cycle. Based on a numerical study, we find that a policy with a balanced production cycle leads to lower cost than other policies with unbalanced cycles.

Original language	English
Pages (from-to)	170-176
Number of pages	7
Journal	International Journal of Production Economics
Volume	157
Issue number	1
DOIs	https://doi.org/10.1016/j.ijpe.2014.05.006
State	Published - 2014

Keywords

Inventory
Lot-sizing and scheduling
Multi-product
Sequence-dependent setups
Simulation optimization
Stochastic demand

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10.1016/j.ijpe.2014.05.006

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title = "Simulation optimization for the stochastic economic lot scheduling problem with sequence-dependent setup times",

abstract = "We consider the stochastic economic lot scheduling problem (SELSP) with lost sales and random demand where switching between products is subject to sequence-dependent setup times. We propose a solution based on simulation optimization using an iterative two-step procedure which combines global policy search with local search heuristics for the traveling salesman sequencing subproblem. To optimize the production cycle, we compare two criteria: minimizing total setup times and evenly distributing setups to obtain a more regular production cycle. Based on a numerical study, we find that a policy with a balanced production cycle leads to lower cost than other policies with unbalanced cycles.",

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AB - We consider the stochastic economic lot scheduling problem (SELSP) with lost sales and random demand where switching between products is subject to sequence-dependent setup times. We propose a solution based on simulation optimization using an iterative two-step procedure which combines global policy search with local search heuristics for the traveling salesman sequencing subproblem. To optimize the production cycle, we compare two criteria: minimizing total setup times and evenly distributing setups to obtain a more regular production cycle. Based on a numerical study, we find that a policy with a balanced production cycle leads to lower cost than other policies with unbalanced cycles.

KW - Inventory

KW - Lot-sizing and scheduling

KW - Multi-product

KW - Sequence-dependent setups

KW - Simulation optimization

KW - Stochastic demand

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Simulation optimization for the stochastic economic lot scheduling problem with sequence-dependent setup times

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Keywords

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