A Genetic Algorithm to Minimize the Total Tardiness for M-Machine Permutation Flowshop Problems

Chia-Shin Chung; James Flynn; Walter Rom; Piotr Staliński

doi:10.7341/2012822

Journal of Entrepreneurship, Management and Innovation (Jan 2012)

A Genetic Algorithm to Minimize the Total Tardiness for M-Machine Permutation Flowshop Problems

Chia-Shin Chung,
James Flynn,
Walter Rom,
Piotr Staliński

Affiliations

Chia-Shin Chung: Department of Operations and Supply Chain Management, Cleveland State Univesity
James Flynn: Department of Operations and Supply Chain Management, Cleveland State Univesity
Walter Rom: Department of Quantitative Methods in Management, Wyższa Szkoła Biznesu-National Louis University
Piotr Staliński

DOI: https://doi.org/10.7341/2012822
Journal volume & issue: Vol. 8, no. 2
pp. 26 – 43

Abstract

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The m-machine, n-job, permutation flowshop problem with the total tardiness objective is a common scheduling problem, known to be NP-hard. Branch and bound, the usual approach to finding an optimal solution, experiences difficulty when n exceeds 20. Here, we develop a genetic algorithm, GA, which can handle problems with larger n. We also undertake a numerical study comparing GA with an optimal branch and bound algorithm, and various heuristic algorithms including the well known NEH algorithm and a local search heuristic LH. Extensive computational experiments indicate that LH is an effective heuristic and GA can produce noticeable improvements over LH.

Published in Journal of Entrepreneurship, Management and Innovation

ISSN: 2299-7075 (Print); 2299-7326 (Online)
Publisher: Cognitione Foundation for the Dissemination of Knowledge and Science
Country of publisher: Poland
LCC subjects: Social Sciences: Industries. Land use. Labor: Management. Industrial management; Social Sciences: Commerce: Business
Website: http://www.jemi.edu.pl

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