Graph Knowledge-Enhanced Iterated Greedy Algorithm for Hybrid Flowshop Scheduling Problem

计算机科学 贪婪算法 调度(生产过程) 算法 解码方法 数学优化 图形 迭代函数 作业车间调度 搜索算法 最佳优先搜索 迭代局部搜索 局部搜索(优化) 理论计算机科学 波束搜索 地铁列车时刻表 数学 操作系统 数学分析
作者
Yingli Li,Biao Zhang,Kaipu Wang,Liping Zhang,Zikai Zhang,Yong Wang
出处
期刊:Mathematics [Multidisciplinary Digital Publishing Institute]
卷期号:13 (15): 2401-2401
标识
DOI:10.3390/math13152401
摘要

This study presents a graph knowledge-enhanced iterated greedy algorithm that incorporates dual directional decoding strategies, disjunctive graphs, neighborhood structures, and a rapid evaluation method to demonstrate its superior performance for the hybrid flowshop scheduling problem (HFSP). The proposed algorithm addresses the trade-off between the finite solution space corresponding to solution representation and the search space for the optimal solution, as well as constructs a decision mechanism to determine which search operator should be used in different search stages to minimize the occurrence of futile searching and the low computational efficiency caused by individuals conducting unordered neighborhood searches. The algorithm employs dual decoding with a novel disturbance operation to generate initial solutions and expand the search space. The derivation of the critical path and the design of neighborhood structures based on it provide a clear direction for identifying and prioritizing operations that have a significant impact on the objective. The use of a disjunctive graph provides a clear depiction of the detailed changes in the job sequence both before and after the neighborhood searches, providing a comprehensive view of the operational sequence transformations. By integrating the rapid evaluation technique, it becomes feasible to identify promising regions within a constrained timeframe. The numerical evaluation with well-known benchmarks verifies that the performance of the graph knowledge-enhanced algorithm is superior to that of a prior algorithm, and seeks new best solutions for 183 hard instances.
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