A HEURISTIC HYBRID FRAMEWORK FOR VECTOR JOB SCHEDULING

  • Nareyus I Lawrance AMALDASS Brunel University, London, UK
  • Cormac LUCAS Brunel University, London, UK
  • Nenad MLADENOVIC LAMIH, University of Valenciennes, France and Mathematical Institute, SANU, Belgrade, Serbia

Abstract

We examine the first phase of a known NP-hard 2-stage assembly problem. It consists of sequencing a set of jobs having multiple components to be processed. Each job has to be worked on independently on a specific machine. We consider these jobs to form a vector of tasks. Our objective is to schedule jobs on the particular machines in order to minimize the completion time before the second stage starts. We first develop a new mathematical programming formulation of the problem and test it on a small problem instance using an integer programming solver. Then, we develop a heuristic algorithm based on Ant Colony Optimization and Variable Neighborhood Search metaheuristics in order to minimize the total completion time. The performance of our implementation appears to be efficient and effective.

Published
2016-10-11
How to Cite
AMALDASS, Nareyus I Lawrance; LUCAS, Cormac; MLADENOVIC, Nenad. A HEURISTIC HYBRID FRAMEWORK FOR VECTOR JOB SCHEDULING. Yugoslav Journal of Operations Research, [S.l.], v. 27, n. 1, p. 31–45, oct. 2016. ISSN 2334-6043. Available at: <https://yujor.fon.bg.ac.rs/index.php/yujor/article/view/26>. Date accessed: 05 dec. 2024.
Citation Formats
Issue
Vol 27 No 1 (2017)
Section
Articles
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This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

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