Title :
A hybrid differential evolution algorithm for job shop scheduling problem to minimize the total weighted tardiness
Author :
Wang Wei-ling ; Yin Jing
Author_Institution :
China Center for Inf. Ind. Dev., China
Abstract :
This paper considers the job-shop problem with release dates and due dates, with the objective of minimizing the total weighted tardiness. A hybrid DE (HDE) is presented by combining differential evolution algorithm with the improved critical path algorithm on a disjunctive graph model. Firstly, a job-grouping-order (JPO) rule is presented to convert the continuous values of individuals (real vectors) in DE to job permutations. Secondly, after the global exploration based on DE, the improved critical path algorithm are used in a local search in order to improve the local search ability. An extensive computational experiment carried out on instances of the literature shows the performance of the proposed HDE algorithm.
Keywords :
evolutionary computation; graph theory; job shop scheduling; search problems; HDE algorithm; JPO rule; critical path algorithm; differential evolution algorithm; hybrid DE; hybrid differential evolution algorithm; job shop scheduling problem; job-grouping-order rule; total weighted tardiness minimization; Algorithm design and analysis; Job shop scheduling; Schedules; Sociology; Statistics; Vectors; critical path algorithm; hybrid differential evolution algorithm; job-shop scheduling; total weighted tardiness;
Conference_Titel :
Management Science and Engineering (ICMSE), 2013 International Conference on
Conference_Location :
Harbin
Print_ISBN :
978-1-4799-0473-0
DOI :
10.1109/ICMSE.2013.6586297
