A branch-and-price algorithm for the parallel-line lot-sizing and scheduling problem in flat-panel display manufacturing process

In this paper, we address a lot-sizing and scheduling problem with parallel production lines originating from a flat-panel display manufacturing process. Due to the use of high-tech equipment and expensive materials, as well as high demand levels, it is crucial to establish efficient production plan...

Full description

Saved in:
Bibliographic Details
Published in:Omega (Oxford) Vol. 138; p. 103386
Main Authors: Oh, Seyoung, Jeong, Jinyeong, Lee, Younsoo, Lee, Kyungsik
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.01.2026
Subjects:
Branch-and-price algorithm
Flat-panel display
Labeling algorithm
Lot-sizing and scheduling problem
Parallel production line
Branch-and-price algorithm
Lot-sizing and scheduling problem
Parallel production line
Flat-panel display
Labeling algorithm
ISSN:0305-0483
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:In this paper, we address a lot-sizing and scheduling problem with parallel production lines originating from a flat-panel display manufacturing process. Due to the use of high-tech equipment and expensive materials, as well as high demand levels, it is crucial to establish efficient production plans for this process. We present two integer optimization models for the problem. The first one is an extension of a model proposed in previous literature. Although the model shows satisfactory performance for problems with a single production line, it does not scale well with an increasing number of production lines. To address the scalability issue, we propose an integer optimization approach that can deal with parallel production lines efficiently. Specifically, we introduce a pattern-based model utilizing the concept of a single-line production schedule pattern. To deal with the exponential number of pattern variables in the model, we develop a branch-and-price algorithm. Additionally, we devise an efficient labeling algorithm to solve pricing subproblems, based on a time-expanded network structure of the problem. The performance of the proposed models and algorithms is investigated through computational experiments using real-world data. The test results demonstrate the effectiveness and efficiency of our approaches, particularly showing that the branch-and-price algorithm scales well with an increasing number of production lines. •Real-world parallel-line lot-sizing and scheduling problem is studied.•Proposes two integer optimization models based on a time-expanded network.•Proposes a branch-and-price algorithm with an efficient pricing algorithm.•Demonstrate the proposed approach scales well with an increasing number of lines.
ISSN:0305-0483
DOI:10.1016/j.omega.2025.103386