AN EFFICIENT SIMULATED ANNEALING FOR A HYBRID FLOW SHOP SCHEDULING PROBLEM WITH SEQUENCE-DEPENDENT SETUP TIMES AND TWO OBJECTIVES
DOI:
https://doi.org/10.23055/ijietap.2021.28.2.3805Keywords:
meta-heuristicsAbstract
The paper studies the problem of production scheduling of a set of independent jobs in the g-stage hybrid flow shop. To maximize external and internal efficiency, performance optimization of two functions, including maximum completion time and total tardiness, is intended simultaneously. Due to the dependency of scheduling activities on the times required to prepare the production processes, setup times are considered in the scheduling configurations. The bi-objective simulated annealing is proposed to handle the problem that belongs to the NP-hard class. The proposed algorithm is compared with another efficient algorithm in the literature (namely MOSA). The performance criterion based on the concept of data envelopment analysis, the Free Disposal Hull approach (FDH), is used to estimate the algorithm's efficiency with respect to a set of efficient solutions. The results confirm that the set of efficient solutions of the proposed algorithm is more efficient than another algorithm.
Published
How to Cite
Issue
Section
License
The Author(s) must formally transfer each article's copyright before publication in the INTERNATIONAL JOURNAL OF INDUSTRIAL ENGINEERING. Such transfer enables the Journal to defend itself against plagiarism and other forms of copyright infringement. Your cooperation is appreciated.
You agree that the copyright of your article to be published in the INTERNATIONAL JOURNAL OF INDUSTRIAL ENGINEERING - THEORY, APPLICATIONS, AND PRACTICE is hereby transferred, throughout the World and for the full term and all extensions and renewals thereof, to INTERNATIONAL JOURNAL OF INDUSTRIAL ENGINEERING - THEORY, APPLICATIONS, AND PRACTICE.
The Author(s) reserve(s): (a) the trademark rights and patent rights, if any, and (b) the right to use all or part of the information contained in this article in future, non-commercial works of the Author's own, or, if the article is a "work-for-hire" and made within the scope of the Author's employment, the employer may use all or part of the information contained in this article for intra-company use, provided the usual acknowledgments are given regarding copyright notice and reference to the original publication.
The Author(s) warrant(s) that the article is Author's original work and has not been published before. If excerpts from copyrighted works are included, the Author will obtain written permission from the copyright owners and credit the article's sources.
The author also warrants that the article contains no libelous or unlawful statements and does not infringe on the rights of others. If the article was prepared jointly with other Author(s), the Author agrees to inform the co-Author(s) of the terms of the copyright transfer and to sign on their behalf; or in the case of a "work-for-hire," the employer or an authorized representative of the employer.
The journal does not provide the author copy of the final paper when it is published. The author(s) can make(s) a subscription to INTERNATIONAL JOURNAL OF INDUSTRIAL ENGINEERING - THEORY, APPLICATIONS, AND PRACTICE if they want to get the final paper that has already been published.
The journal is registered with the Library of Congress (ISSN # 1943-670X). All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior written permission of the journal.
The author reserves patent and trademark rights and the right to use all or part of the information contained in the article in future non-commercial works.
