Research on Location Allocation of Four-Way Shuttle Storage and Retrieval System

doi:10.3778/j.issn.1002-8331.2208-0265

Abstract

Abstract: Aiming at the problems of the dense distribution and the dynamic changes of cargo spaces in the location allocation of four-way shuttle storage and retrieval system, a multi-objective cargo space allocation method aiming at improving warehouse work efficiency and equipment stability is established, and a new method is proposed. An improved shuffled frog leading algorithm is proposed to simulate and optimize the model. First of all, according to the distribution characteristics of cargo spaces in intensive warehousing, a strategy of cargo space and cargo lanes is proposed, and a cargo space allocation principle for goods stored in cargo lanes by category is established. Then, a mathematical model of cargo space allocation is established with the goal of shortest path, balanced distribution of goods and lower center of shelves gravity. Finally, an improved shuffled frog leading algorithm is proposed to solve the model by using dynamic adaptive crossover to improve the local search strategy of the standard shuffled frog leading algorithm. The simulation results show that the cargo space allocation model is reasonable, and compared with the standard genetic algorithm and the standard shuffled frog leading algorithm, the improved shuffled frog leading algorithm has faster convergence speed, more reasonable optimization of cargo space, and can effectively solve the problem of location allocation of four-way shuttle storage and retrieval system.

Key words: dense storage, location allocation, shuffles frog leaping algorithm, genetic algorithm

摘要： 针对四向穿梭车式密集仓储货位分配中存在的货位密集分布、货位动态变化等问题，建立了以提高仓库工作效率、设备稳定性为目标的多目标货位分配方法，提出了一种改进的混合蛙跳算法求解。针对密集仓储的货位分布特点，提出货位分货道策略，建立货物按类别分货道存放的货位分配原则。以路径最短、货物分布均衡及货架重心稳定均衡为目标建立货位分配数学模型。使用动态自适应交叉改进标准混合蛙跳算法的局部搜索策略，提出了一种改进的混合蛙跳算法对模型进行求解。通过实例仿真验证结果表明：货位分配模型合理，并且与标准的遗传算法和混合蛙跳算法相比，改进后的蛙跳算法收敛速度更快，对货位的优化更加合理，可以有效解决四向穿梭车式密集仓储货位分配问题。

关键词: 密集仓储, 货位分配, 混合蛙跳算法, 遗传算法

LI Jia, HE Fei, XIE Gangwei, YANG Yang, FANG Yihe. Research on Location Allocation of Four-Way Shuttle Storage and Retrieval System[J]. Computer Engineering and Applications, 2023, 59(24): 328-335.

李佳, 何非, 谢刚伟, 杨洋, 房逸鹤. 四向穿梭车式密集仓储入库货位分配方法研究[J]. 计算机工程与应用, 2023, 59(24): 328-335.

References

[1] LAM C H Y，CHOY K L，CHUNG S H.Framework to measure the performance of warehouse operations efficiency[C]//2010 8th IEEE International Conference on Industrial Informatics，2010：634-639.
[2] 杨玮，张子涵，袁永斌，等.基于大数据的子母穿梭车式密集存储系统的优化调度研究[J].陕西科技大学学报，2021，39（1）：159-165.
YANG W，ZHANG Z H，YUAN Y B，et al.Research on optimal scheduling of shuttle-carrier in densestorage system based on big data[J].Journal of Shaanxi University of Science & Technology，2021，39（1）：159-165.
[3] 黄鹏，姚锡凡，胡晓阳，等.面向大规模立体仓库货位分配问题的两阶段混合优化算法[J].计算机集成制造系统，2022，28（8）：2481-2495.
HUANG P，YAO X F，HU J Y，et al.Two-stage hybrid optimization algorithm for large-scale automated warehouse storage location assignment problem[J].Computer Integrated Manufacturing Systems，2022，28（8）：2481-2495.
[4] 蔡安江，叶康，郭师虹，等.双向式自动化立体仓库货位分配优化[J].计算机集成制造系统，2022，28（12）：4046-4054.
CAI A J，YE K，GUO S H，et al.Optimization of storage allocation in two-way automated warehouse[J].Computer Integrated Manufacturing Systems，2022，28（12）：4046-4054.
[5] WANG Y Y，MOU S D，WU Y H.Storage assignment optimization in a multi-tier shuttle warehousing system[J].Chinese Journal of Mechanical Engineering，2016，29（2）：421-429.
[6] 付晓锋，张波，王卫青.多模式自动化存取系统存储货位分配算法研究[J].工业仪表与自动化装置，2016（3）：56-59.
FU X F，ZHANG B，WANG W Q.Storage distribution optimization and aisle assignmentfor an autonomous-steerable-vehicle storage and retrieval system of a warehouse[J].Industrial Instrumentation & Automation，2016（3）：56-59.
[7] 宋佼蓉.四向穿梭车式密集仓储系统作业流程优化研究[D].北京：北京邮电大学，2021.
SONG J R.Research on the optimization of operation process of four-way shuttle storage and retrieval system[D].Beijing：Beijing University of Posts and Telecommunications，2021.
[8] 焦玉玲，张鹏，田广东，等.基于多种群遗传算法的自动化立体库货位优化[J].吉林大学学报（工学版），2018，48（5）：1398-1404.
JIAO Y L，ZHANG P，TIAN G D，et al.Slotting optimization of automated warehouse based on multi-population GA[J].Journal of Jilin University（Engineering and Technology Edition），2018，48（5）：1398-1404.
[9] 姜良重，雷航，李贞昊，等.采用自适应优化权重的出库货位优化方法研究[J].计算机工程与应用，2021，57（15）：271-278.
JIANG L Z，LEI H，LI Z H，et al.Research on outbound slotting optimization method by using adaptive optimization weights[J].Computer Engineering and Applications，2021，57（15）：271-278.
[10] 张思建，方彦军，贺瑶，等.基于模拟退火算法的AVS/RS多批货箱入库货位优化[J].武汉大学学报（工学版），2016，49（2）：315-320.
ZHANG S J，FANG Y J，HE Y，et al.Batches of container storage location assignment optimization in AVS/RS based on simulated annealing algorithm[J].Engineering Journal of Wuhan University，2016，49（2）：315-320.
[11] 郭娟，钱吴永.基于粒子群算法的立体仓库货位优化研究[J].物流科技，2020，43（4）：156-160.
GUO J，QIAN W Y.Research on optimization of three-dimensional warehouse goods location based on particle swarm optimization[J].Logistics Sci-Tech，2020，43（4）：156-160.
[12] EUSUFF M，LANSEY K，PASHA F.Shuffled frog-leaping algorithm：a memetic meta-heuristic for discrete optimization[J].Engineering Optimization，2006，38（2）：129-154.
[13] 雷斌，王菀莹，赵佳欣.货位分配优化研究综述[J].计算机工程与应用，2021，57（1）：48-55.
LEI B，WANG W Y，ZHAO J X.Review of research on location allocation optimization[J].Computer Engineering and Applications，2021，57（1）：48-55.
[14] 何兵，车林仙，刘初升.一种蛙跳和差分进化混合算法[J].计算机工程与应用，2011，47（18）：4-8.
HE B，CHE L X，LIU C S.Novel hybrid shuffled frog leaping and differential evolution algorithm[J].Computer Engineering and Applications，2011，47（18）：4-8.
[15] 王松，孙振忠，郭建文，等.基于混合蛙跳算法的复杂产品装配序列规划[J].计算机集成制造系统，2014，20（12）：2991-2999.
WANG S，SUN Z Z，GUO J W，et al.Assembly sequence planning based on shuffled frog leaping algorithm[J].Computer Integrated Manufacturing Systems，2014，20（12）：2991-2999.
[16] 雷德明，杨冬婧.基于新型蛙跳算法的低碳混合流水车间调度[J].控制与决策，2020，35（6）：1329-1337.
LEI D M，YANG D J.A novel shu?ed frog-leaping algorithm for low carbon hybrid flow shopscheduling[J].Control and Decision，2020，35（6）：1329-1337.