Improved Jaya Algorithm for Solving HFSPs

doi:10.3969/j.issn.1004-132X.2024.08.014

Abstract

Abstract: HFSP was an NP-hard problem widely presented in process manufacturing systems. For HFSP aimed at minimizing makespan, an improved Jaya algorithm was proposed by combining the advantages of Jaya algorithm and Tabu search. During the iterative update phase of the algorithm, a path reconnection-based method was proposed for the discrete update of the algorithm according to the designed coding, which ensured the diversity of the population and enhanced the global search capability. To improve local search capability, a Tabu search algorithm integrating two types of neighborhood structures was proposed to further enhance the quality of solutions, and the neighborhood structures were adjusted adaptively according to the characteristics of the problem. The proposed algorithm was used to solve three types of HFSP benchmark sets. New optimal solutions are found in large-scale classic benchmark sets, which are superior to other algorithms in the current literatures in terms of solution quality, verifying the effectiveness and superiority of the proposed algorithm.

Key words: hybrid flow-shop scheduling problem(HFSP), path relink, Tabu search, makespan

摘要： 混合流水车间调度问题(HFSP)是广泛存在于流程制造系统中的NP-hard问题。针对最小化完工时间的HFSP，结合Jaya算法和禁忌搜索的优势，提出了一种改进Jaya算法。在该算法迭代更新阶段，根据设计的编码方式提出一种基于路径重连的方法来进行离散更新，以保证种群的多样性，提高全局搜索能力。为提高局部搜索能力，提出融合两种邻域结构的禁忌搜索算法来进一步提高解的质量，并根据问题特性对邻域结构进行适配调整。采用所提算法求解三种基准测试集，在大规模经典测试集中求出新的最优解，在解的质量方面优于当前文献中其他算法，验证了所提算法的有效性和优越性。

关键词: 混合流水车间调度, 路径重连, 禁忌搜索, 完工时间

CLC Number:

TH186

ZHOU Hao1, ZHANG Chaoyong1, 2, LIU Hui1, 3, LUO Min2. Improved Jaya Algorithm for Solving HFSPs[J]. China Mechanical Engineering, 2024, 35(08): 1462-1471,1508.

周豪1, 张超勇1, 2, 刘辉1, 3, 罗敏2. 改进Jaya算法求解混合流水车间调度问题[J]. 中国机械工程, 2024, 35(08): 1462-1471,1508.

References

［1］李颖俐, 李新宇, 高亮. 混合流水车间调度问题研究综述［J］. 中国机械工程, 2020, 31(23):2798-2813.
LI Yingli, LI Xinyu, GAO Liang. Review on Hybrid Flow Shop Scheduling Problems［J］. China Mechanical Engineering, 2020, 31(23):2798-2813.
［2］张超勇. 基于自然启发式算法的作业车间调度问题理论与应用研究［D］. 武汉:华中科技大学, 2007.
ZHANG Chaoyong. Research on the Shop Scheduling Problem with Naturally-inspired Heuristic Algorithms［D］. Wuhan:Huazhong University of Science and Technology, 2007.
［3］RUIZ R, VZQUEZ-RODRGUEZ J A. The Hybrid Flow Shop Scheduling Problem［J］. European Journal of Operational Research, 2010, 205(1):1-18.
［4］MENG Leilei, ZHANG Chaoyong, SHAO Xinyu, et al. More MILP Models for Hybrid Flow Shop Scheduling Problem and Its Extended Problems［J］. International Journal of Production Research, 2020, 58(13):3905-3930.
［5］MISSAOUI A, RUIZ R. A Parameter-less Iterated Greedy Method for the Hybrid Flowshop Scheduling Problem with Setup Times and Due Date Windows［J］. European Journal of Operational Research, 2022, 303(1):99-113.
［6］郑堃, 练志伟, 顾新艳, 等. 采用改进两点交叉算子的改进自适应遗传算法求解不相关并行机混合流水车间调度问题［J］. 中国机械工程, 2023, 34(14):1647-1658.
ZHENG Kun, LIAN Zhiwei, GU Xinyan, et al. Hybrid Flow Shop Scheduling Problems with Unrelated Parallel Machine Solved by Improved Adaptive Genetic Algorithm(IAGA) with ITPX［J］. China Mechanical Engineering, 2023, 34(14):1647-1658.
［7］PAN Quanke, WANG Ling, LI Junqing, et al. A Novel Discrete Artificial Bee Colony Algorithm for the Hybrid Flowshop Scheduling Problem with Makespan Minimisation［J］. Omega, 2014, 45:42-56.
［8］张源, 陶翼飞, 王加冕. 改进差分进化算法求解混合流水车间调度问题［J］. 中国机械工程, 2021, 32(6):714-720.
ZHANG Yuan, TAO Yifei, WANG Jiamian. An Improved DE Algorithm for Solving Hybrid Flow-shop Scheduling Problems［J］. China Mechanical Engineering, 2021, 32(6):714-720.
［9］LIAO C J, TJANDRADJAJA E, CHUNG T P. An Approach Using Particle Swarm Optimization and Bottleneck Heuristic to Solve Hybrid Flow Shop Scheduling Problem［J］. Applied Soft Computing Journal, 2012, 12(6):1755-1764.
［10］时维国, 宋存利. 求解混合流水车间调度问题的改进灰狼算法［J］. 计算机集成制造系统, 2021, 27(11):3196-3208.
SHI Weiguo, SONG Cunli. Improved Grey Wolf Optimization for Solving Hybrid Flow Shop Scheduling Problem［J］. Computer Integrated Manufacturing Systems, 2021, 27(11):3196-3208.
［11］杜利珍, 王震, 柯善富, 等. 混合流水车间调度问题的果蝇优化算法求解［J］. 中国机械工程, 2019, 30(12):1480-1485.
DU Lizhen, WANG Zhen, KE Shanfu, et al. Fruit Fly Optimization Algorithm for Solving Hybrid Flow-shop Scheduling Problems［J］. China Mechanical Engineering, 2019, 30(12):1480-1485.
［12］WANG Shijin, LIU Ming. Two-stage Hybrid Flow Shop Scheduling with Preventive Maintenance Using Multi-objective Tabu Search Method［J］. International Journal of Production Research, 2014, 52(5):1495-1508.
［13］PENG Bo, LYU Zhipeng, CHENG T C E. A Tabu Search/Path Relinking Algorithm to Solve the Job Shop Scheduling Problem［J］. Computers & Operations Research, 2015, 53:154-164.
［14］RAO R V. Jaya:a Simple and New Optimization Algorithm for Solving Constrained and Unconstrained Optimization Problems［J］. International Journal of Industrial Engineering Computations, 2016:19-34.
［15］BUDDALA R, MAHAPATRA S S. Improved Teaching-Learning-based and JAYA Optimization Algorithms for Solving Flexible Flow Shop Scheduling Problems［J］. Journal of Industrial Engineering International, 2018, 14(3):555-570.
［16］连裕翔, 张超勇, 孟磊磊, 等. 基于改进Jaya算法的柔性作业车间调度问题［J］. 计算机集成制造系统, 2021, 27(11):3172-3184.
LIAN Yuxiang, ZHANG Chaoyong, MENG Leilei, et al. Improved Jaya Algorithm and Tabu Search for Flexile Job Shop Scheduling Problem［J］. Computer Integrated Manufacturing Systems, 2021, 27(11):3172-3184.
［17］AMIRTEIMOORI A, MAHDAVI I, SOLIMANPUR M, et al. A Parallel Hybrid PSO-GA Algorithm for the Flexible Flow-shop Scheduling with Transportation［J］. Computers & Industrial Engineering, 2022, 173:108672.
［18］FERNANDEZ-VIAGAS V, PEREZ-GONZALEZ P, FRAMINAN J M. Efficiency of the Solution Representations for the Hybrid Flow Shop Scheduling Problem with Makespan Objective［J］. Computers & Operations Research, 2019, 109:77-88.
［19］任彩乐, 张超勇, 孟磊磊, 等. 基于改进候鸟优化算法的混合流水车间调度问题［J］. 计算机集成制造系统, 2019, 25(3):643-653.
REN Caile, ZHANG Chaoyong, MENG Leilei, et al. Hybrid Flow-shop Scheduling Problems Based on Improved Migrating Birds Optimization Algorithm［J］. Computer Integrated Manufacturing Systems, 2019, 25(3):643-653.
［20］FAN Jiaxin, LI Yingli, XIE Jin, et al. A Hybrid Evolutionary Algorithm Using Two Solution Representations for Hybrid Flow-shop Scheduling Problem［J］. IEEE Transactions on Cybernetics, 2023, 53(3):1752-1764.
［21］FERNANDEZ-VIAGAS V. A Speed-up Procedure for the Hybrid Flow Shop Scheduling Problem［J］. Expert Systems with Applications, 2022, 187:115903.
［22］URLINGS T, RUIZ R, STTZLE T. Shifting Representation Search for Hybrid Flexible Flowline Problems［J］. European Journal of Operational Research, 2010, 207(2):1086-1095.
［23］GUINET A, SOLOMON M M, KEDIA P K, et al. A Computational Study of Heuristics for Two-stage Flexible Flowshops［J］. International Journal of Production Research, 1996, 34(5):1399-1415.
［24］ZHANG Chaoyong, LI Peigen, GUAN Zailin, et al. A Tabu Search Algorithm with a New Neighborhood Structure for the Job Shop Scheduling Problem［J］. Computers & Operations Research, 2007, 34(11):3229-3242.
［25］MASTROLILLI M, GAMBARDELLA L M. Effective Neighbourhood Functions for the Flexible Job Shop Problem［J］. Journal of Scheduling, 2000, 3(1):3-20.
［26］CARLIER J, NERON E. An Exact Method for Solving the Multi-processor Flow-shop［J］. RAIRO-Operations Research, 2000, 34(1):1-25.
［27］CUI Zhe, GU Xingsheng. An Improved Discrete Artificial Bee Colony Algorithm to Minimize the Makespan on Hybrid Flow Shop Problems［J］. Neurocomputing, 2015, 148:248-259.
［28］周永强, 王翠雨, 李颖俐, 等. 改进果蝇算法求解混合流水车间调度问题［J］. 控制理论与应用, 2023, 40(4):597-606.
ZHOU Yongqiang, WANG Cuiyu, LI Yingli, et al. Improved Fruit Fly Optimization Algorithm for Solving the Hybrid Flow Shop Scheduling Problem［J］. Control Theory & Applications, 2023, 40(4):597-606.
［29］FERNANDEZ-VIAGAS V, FRAMINAN J M. Design of a Testbed for Hybrid Flow Shop Scheduling with Identical Machines［J］. Computers & Industrial Engineering, 2020, 141:106288.
［30］ZTOP H, TASGETIREN M, ELIIYI D, et al. Metaheuristic Algorithms for the Hybrid Flowshop Scheduling Problem［J］. Computers & Operations Research, 2019, 111:177-196.

[1]	ZHANG Hongliang, XU Gongjie, BAO Qiang, PAN Ruilin. Distributed Flexible Job Shop Green Scheduling with Transportation Time [J]. China Mechanical Engineering, 2022, 33(21): 2554-2563,2645.
[2]	ZHANG Yuan, TAO Yifei, WANG Jiamian. An Improved DE Algorithm for Solving Hybrid Flow-shop Scheduling Problems [J]. China Mechanical Engineering, 2021, 32(06): 714-720.
[3]	WANG Xiao-Lei, YANG Yo, YANG Ji, CENG Jiang, CHENG Bo. Conflict Resolution Based on Hierarchical Knowledge Matching in Collaborative Product Creative Design [J]. China Mechanical Engineering, 2010, 21(20): 2488-2495.