Tasks Scheduling Optimization of Tier-to-Tier Shuttle-Based Storage and Retrieval System with Double Lifts

doi:10.3778/j.issn.1002-8331.1907-0326

Abstract

Abstract:

To improve the order picking efficiency of tier-to-tier shuttle-based storage and retrieval system, and to reduce the outbound task timeout rate, a mathematical model for the outbound task scheduling is established, and the task delivery deadline is introduced into the scheduling strategy. On this basis, the Max-Min Ant System-Discrete Particle Swarm Optimization（MMAS-DPSO）algorithm is used to solve the model. The random mutation is introduced to improve the performance of Particle Swarm Optimization（PSO） algorithm, the permutation complexity is used to control the particle variability and avoid the premature convergence of the algorithm. The MATLAB is used to perform the task outbound simulation, task outbound total time and timeout rate of each scheduling scheme are obtained. Finally, the experiments prove that the strategy can better adapt to the complex outbound task scheduling requirements in the e-commerce environment and get a more reasonable tasks scheduling scheme.

Key words: tier-to-tier shuttle-based storage and retrieval system with double lifts, task scheduling, Max-Min Ant System-Discrete Particle Swarm Optimization（MMAS-DPSO） algorithm, random mutation

摘要：

为提高跨层穿梭车系统料箱拣选出库效率，降低任务出库超时率，建立了跨层穿梭车双提升机系统出库任务调度数学模型，并将任务出库期限引入调度策略。在此基础上，使用蚁群-粒子群双层智能优化算法对模型进行了求解，引入随机变异对粒子群算法进行改进，提出使用置换复杂度对粒子变异程度进行控制，避免算法早熟收敛。利用MATLAB进行过程仿真，获得各调度方案的出库总时间和任务超时信息。通过实验证明该策略能更好地适应电商环境下复杂的出库任务调度要求，得到更为合理的任务调度方案。

关键词: 跨层穿梭车双提升机系统, 任务调度, 蚁群-粒子群双层智能优化算法, 随机变异

YU Qiaoyu，WU Yaohua，WANG Yanyan. Tasks Scheduling Optimization of Tier-to-Tier Shuttle-Based Storage and Retrieval System with Double Lifts[J]. Computer Engineering and Applications, 2020, 56(20): 270-278.

于巧玉，吴耀华，王艳艳. 跨层穿梭车双提升机系统料箱拣选任务调度[J]. 计算机工程与应用, 2020, 56(20): 270-278.

[1]	ZHANG Chi, WANG Yuxin, FENG Zhen, GUO He. Energy-Efficient Task Scheduling Algorithm in Two-Layer Virtualized Cloud Architecture [J]. Computer Engineering and Applications, 2021, 57(3): 103-111.
[2]	TIAN Zhuojing, HUANG Zhenchun, ZHANG Yinong. Review of Task Scheduling Methods in Cloud Computing Environment [J]. Computer Engineering and Applications, 2021, 57(2): 1-11.
[3]	XIANG Min, DAI Keyu, ZHOU En, LIU Yu, LEI Rujie. Scheduling Strategy for IoT Terminals Considering Task Relevance [J]. Computer Engineering and Applications, 2020, 56(23): 95-102.
[4]	WU Bo, XU Daoqiang, ZOU Yunfeng, WANG Tiantian, LI Xin. Stage-Aware Geo-Distributed Data Analytics Job Insurance Mechanism [J]. Computer Engineering and Applications, 2019, 55(23): 78-85.
[5]	ZHU Yongchao, ZHOU Chuan, GUO Jian, WU Yifei, CUI Yuwei. New Primary/Backup Scheduling Algorithm in Heterogeneous Distributed Systems [J]. Computer Engineering and Applications, 2019, 55(21): 93-98.
[6]	TANG Linyu, JIANG Jiafu, GU Ke. Computing Resource Allocation Scheme Based on Fog Computing [J]. Computer Engineering and Applications, 2019, 55(19): 96-104.
[7]	JIA Liyun, ZHANG Xiangli, ZHANG Hongmei. Heuristic task scheduling algorithm for distributed systems [J]. Computer Engineering and Applications, 2017, 53(12): 63-69.
[8]	WANG Xianghua1, CHEN Tefang1, ZHANG Biming2, YAN Jian1. Web data clustering algorithm with time series and task scheduling [J]. Computer Engineering and Applications, 2016, 52(9): 159-163.
[9]	LIN Ruonan, LI Qiang. Template-based task scheduling strategy and algorithm in cloud computing environment [J]. Computer Engineering and Applications, 2016, 52(19): 48-52.
[10]	WANG Bo, ZHANG Xiaolei. Task scheduling algorithm based on Particle Swarm Optimization Genetic Algorithms in cloud computing environment [J]. Computer Engineering and Applications, 2015, 51(6): 84-88.
[11]	SUN Lingyu1, LENG Ming1，2, ZHU Ping1, LI Jinzhong1. Research of dependent task schedule of cloud computing based on weighted directed hypergraph [J]. Computer Engineering and Applications, 2015, 51(24): 34-39.
[12]	WANG Zhenchao. Integration of DEA and Taguchi method of multi-task scheduling scheme in cloud computing [J]. Computer Engineering and Applications, 2015, 51(2): 140-145.
[13]	LI Jingmei, ZHANG Dahu, WU Yanxia. Heterogeneous Chip Multi-core Processor task scheduling method based on ant colony algorithm [J]. Computer Engineering and Applications, 2015, 51(18): 47-51.
[14]	LI Zhaojun1，2, LI Zheng2, WANG Xicheng2, LI Keqiu1. Dynamic cloud task scheduling method based on Kriging surrogate model [J]. Computer Engineering and Applications, 2015, 51(16): 30-35.
[15]	JI Jun, DAI Yueming, WU Dinghui. Disturbance variation embedded shuffled frog leaping algorithm [J]. Computer Engineering and Applications, 2015, 51(12): 27-30.

Tasks Scheduling Optimization of Tier-to-Tier Shuttle-Based Storage and Retrieval System with Double Lifts

跨层穿梭车双提升机系统料箱拣选任务调度

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics