并行多轨道穿梭环系统调度的叠加泊松分布变量邻域搜索

IF 11.4 1区计算机科学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Robotics and Computer-integrated Manufacturing Pub Date : 2025-03-23 DOI:10.1016/j.rcim.2025.103016

Wenbin Zhang , Youshan Liu , Chunjiang Zhang , Weiming Shen

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引用次数: 0

摘要

本文提出了一种自动化存储检索系统中并联多轨道穿梭回路系统的布置方案及其调度方法。利用角坐标和轨迹编码的运动数学模型，建立了多智能体仿真环境。仿真包括RGV代理、任务分配代理、轨道分配代理和收费决策代理。个体主体的行为直接或间接地由三层决策编码方法指导。我们还提出了一种启发式算法，称为叠加泊松分布-变量邻域搜索，通过基于模拟的优化来优化系统效率。数值实验通过不同规模的示例场景验证了算法的性能。在此基础上，验证了并行多轨道布局的优越效率，评估了rgv数量对系统吞吐量的影响，并确定了不同轨道布局配置下rgv的最佳数量。对物理参数对系统效率的影响进行了敏感性分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Superimposed Poisson Distribution Variable Neighborhood Search for Scheduling of Parallel Multi-track Shuttle Loop System

This article presents a layout scenario of parallel multiple tracks shuttle loop system and its scheduling method within an automated storage and retrieval system. Leveraging the motion mathematical model articulated through angular coordinates and track coding, we established a multi-agent simulation environment. The simulation encompasses RGV agents, task assignment agents, track allocation agents, and charging decision-making agents. The actions of individual agents are directly or indirectly guided by a three-tier decision coding method. We also propose a heuristic algorithm, termed Superimposed Poisson Distribution-Variable Neighborhood Search, to optimize system efficiency through Simulation-Based Optimization. Numerical experiments validate the performance of the algorithm using example scenarios of varying scales. Furthermore, we confirm the superior efficiency of parallel multiple track layouts, assess the impact of the number of RGVs on system throughput, and identify the optimal number of RGVs for different track layout configurations. A sensitivity analysis is conducted to explore the effect of physical parameters on system efficiency.

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来源期刊

Robotics and Computer-integrated Manufacturing 工程技术-工程：制造

CiteScore

24.10

自引率

13.50%

发文量

160

审稿时长

50 days

期刊介绍： The journal, Robotics and Computer-Integrated Manufacturing, focuses on sharing research applications that contribute to the development of new or enhanced robotics, manufacturing technologies, and innovative manufacturing strategies that are relevant to industry. Papers that combine theory and experimental validation are preferred, while review papers on current robotics and manufacturing issues are also considered. However, papers on traditional machining processes, modeling and simulation, supply chain management, and resource optimization are generally not within the scope of the journal, as there are more appropriate journals for these topics. Similarly, papers that are overly theoretical or mathematical will be directed to other suitable journals. The journal welcomes original papers in areas such as industrial robotics, human-robot collaboration in manufacturing, cloud-based manufacturing, cyber-physical production systems, big data analytics in manufacturing, smart mechatronics, machine learning, adaptive and sustainable manufacturing, and other fields involving unique manufacturing technologies.