Salp swarm algorithm based on blocks on critical path for reentrant job shop scheduling problems

摘要

In this paper, salp swarm algorithm based on blocks on critical path (SSA_BCP) is presented to minimize the makespan for reentrant job shop scheduling problem (RJSSP), which is a typical NP-complete combinational optimization problem. Firstly, the mathematical model of RJSSP based on the disjunctive graph is established. Secondly, the extended reentrant-smallest-order-value (RSOV) encoding rule is designed to transform SSA’s individuals from real vectors to job permutations so that SSA can be used to perform global search for finding high-quality solutions or regions in the solution space. Thirdly, four kinds of neighborhood structures are defined after defining the insert operation based on block structure, which can be used to avoid search in the invalid regions. Then, a high-efficient local search integrating multiple neighborhoods is proposed to execute a thorough search from the promising regions found by the global search. Simulation results and comparisons show the effectiveness of the proposed algorithm.

出版物
in Proceeding of International Conference on Intelligent Computing, 10954 LNCS, 638–648
Zaixing Sun
Zaixing Sun
博士

我目前在哈尔滨工业大学(深圳)攻读计算机科学与技术博士学位。我还曾是新西兰惠灵顿维多利亚大学进化计算研究小组的访问学生。我的研究兴趣包括云计算、智能优化和调度。