Title :
A Computational Study of Representations in Genetic Programming to Evolve Dispatching Rules for the Job Shop Scheduling Problem
Author :
Su Nguyen ; Mengjie Zhang ; Johnston, Michael ; Kay Chen Tan
Author_Institution :
Evolutionary Comput. Res. Group, Victoria Univ. of Wellington, Wellington, New Zealand
Abstract :
Designing effective dispatching rules is an important factor for many manufacturing systems. However, this time-consuming process has been performed manually for a very long time. Recently, some machine learning approaches have been proposed to support this task. In this paper, we investigate the use of genetic programming for automatically discovering new dispatching rules for the single objective job shop scheduling problem (JSP). Different representations of the dispatching rules in the literature are newly proposed in this paper and are compared and analysed. Experimental results show that the representation that integrates system and machine attributes can improve the quality of the evolved rules. Analysis of the evolved rules also provides useful knowledge about how these rules can effectively solve JSP.
Keywords :
dispatching; genetic algorithms; job shop scheduling; manufacturing systems; JSP; dispatching rules; genetic programming; machine attributes; manufacturing systems; single objective job shop scheduling problem; system attributes; timeconsuming process; Dispatching; Genetic algorithms; Genetic programming; Grammar; Job shop scheduling; Processor scheduling; Schedules; Dispatching rule; genetic programming; hyper-heuristic; job shop scheduling (JSP);
Journal_Title :
Evolutionary Computation, IEEE Transactions on
DOI :
10.1109/TEVC.2012.2227326
