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Senthilkumar, P. and Shahabudeen, P. (2006) GA Based Heuristic for the Open Job Shop Scheduling Problem. International Journal of Advanced Manufacturing Technology, 30, 297-301.
http://dx.doi.org/10.1007/s00170-005-0057-2

has been cited by the following article:

  • TITLE: A Study of Crossover Operators for Genetic Algorithm and Proposal of a New Crossover Operator to Solve Open Shop Scheduling Problem

    AUTHORS: Ellur Anand, Ramasamy Panneerselvam

    KEYWORDS: Open Shop Scheduling Problems, Genetic Algorithm, Crossover Operator, Chromosome Encoding

    JOURNAL NAME: American Journal of Industrial and Business Management, Vol.6 No.6, June 24, 2016

    ABSTRACT: Open Shop Scheduling Problem (OSSP) is a combinatorial optimization problem for more than two machines and n jobs. Open Shop Scheduling Problem is another kind of scheduling problem along with flow shop and job shop scheduling problems. The open shop scheduling problem involves scheduling of jobs, where the sequence of the operations of each job can be arbitrarily chosen and need not be same. This means that the operations of the jobs can be performed in any sequence. In the absence of sequences for the jobs, for a given set of jobs, finding different parameters like maximum completion time Cmax becomes highly difficult and complex. One can use complete enumeration method or branch and bound method to solve this problem optimally for small and medium size problems. The large size problems of open shop problem with more than two machines and with n jobs can be solved by either a heuristic or meta-heuristics such as genetic algorithm, simulated annealing algorithm, etc. to obtain very near optimal solution. The performance of the genetic algorithm is affected by crossover operator performed between two parent chromosomes. Hence, this paper explores various crossover operators used, while using evolutionary based genetic algorithm to solve open shop scheduling problems. It further attempts to propose a new crossover operator using three chromosomes.