Paper Info
Title
Late Acceptance Hill-Climbing Matheuristic for the General Lot Sizing and Scheduling Problem with Rich Constraints.
Abstract
This paper considers the general lot sizing and scheduling problem with rich constraints exemplified by means of rework and lifetime constraints for defective items (GLSP-RP), which finds numerous applications in industrial settings, for example, the food processing industry and the pharmaceutical industry. To address this problem, we propose the Late Acceptance Hill-climbing Matheuristic (LAHCM) as a novel solution framework that exploits and integrates the late acceptance hill climbing algorithm and exact approaches for speeding up the solution process in comparison to solving the problem by means of a general solver. The computational results show the benefits of incorporating exact approaches within the LAHCM template leading to high-quality solutions within short computational times.
Year
DOI
Venue
2020
10.3390/a13060138
ALGORITHMS
Keywords
DocType
Volume
matheuristic,late acceptance hill-climbing,lot sizing,scheduling,rework,lifetime constraints,optimization framework
Journal
13
Issue
Citations 
PageRank 
6
0
0.34
References 
Authors
0
3
Name
Order
Citations
PageRank
Andreas Goerler100.34
Eduardo Lalla-Ruiz215018.82
Stefan Voß359246.77