Evolutionary algorithms for scheduling a flowshop manufacturing cell with sequence dependent family setups

Franca, P. M.; Gupta, J. N. D.; Mendes, Alexandre; Moscato, Pablo Alberto; Veltink, K. J.

Title: Evolutionary algorithms for scheduling a flowshop manufacturing cell with sequence dependent family setups
Creator: Franca, P. M.; Gupta, J. N. D.; Mendes, Alexandre; Moscato, Pablo Alberto; Veltink, K. J.
Relation: Computers & Industrial Engineering Vol. 48, no. 3, p. 491-506
Publisher: Pergamon Press
Resource Type: journal article
Date: 2005
Description: This paper considers the problem of scheduling part families and jobs within each part family in a flowshop manufacturing cell with sequence dependent family setups times where it is desired to minimize the makespan while processing parts (jobs) in each family together. Two evolutionary algorithms-a Genetic Algorithm and a Memetic Algorithm with local search-are proposed and empirically evaluated as to their effectiveness in finding optimal permutation schedules. The proposed algorithms use a compact representation for the solution and a hierarchically structured population where the number of possible neighborhoods is limited by dividing the population into clusters. In comparison to a Multi-Start procedure, solutions obtained by the proposed evolutionary algorithms were very close to the lower bounds for all problem instances. Moreover, the comparison against the previous best algorithm, a heuristic named CMD, indicated a considerable performance improvement. (c) 2005 Elsevier Ltd. All rights reserved.
Subject: flowshop scheduling; family sequence dependent setups; manufacturing; cells; group technology; evolutionary algorithms; empirical results
Identifier: http://hdl.handle.net/1959.13/25140
Identifier: uon:145
Identifier: ISSN:0360-8352
Language: eng
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