A self-adaptive differential evolution heuristic for two-stage assembly scheduling problem to minimize maximum lateness with setup times

The two-stage assembly flowshop scheduling problem has been addressed with respect to different criteria in the literature where setup times are ignored. For some applications, setup times are essential to be explicitly considered since they may take considerable amount of time. We address the two-stage assembly flowshop scheduling problem with respect to maximum lateness criterion where setup times are treated as separate from processing times. We formulate the problem and obtain a dominance relation. Moreover, we propose a self-adaptive differential evolution heuristic. To the best of our knowledge, this is the first attempt to use a self-adaptive differential evolution heuristic to a scheduling problem. We conduct extensive computational experiments to compare the performance of the proposed heuristic with those of particle swarm optimization (PSO), tabu search, and EDD heuristics. The computational analysis indicates that PSO performs much better than tabu and EDD. Moreover, the analysis indicates that the proposed self-adaptive differential evolution heuristic performs as good as PSO in terms of the average error while only taking one-third of CPU time of PSO. (c) 2006 Elsevier B.V. All rights reserved.