基于自动导引车的订单拣选系统的预期距离与替代设计配置

Expected distances and alternative design configurations for automated guided vehicle-based order picking systems

International Journal of Production Research · 2020
被引 23
ABS 3

中文导读

研究了自动导引车订单拣选系统中前进区域的形状和自动导引车数量对性能的影响,推导了两种订单分配规则下预期行驶距离的闭合表达式,并分析了不同拣选站配置的影响,为系统设计提供参考。

Abstract

Automated Guided Vehicle (AGV)-based order picking (OP) systems, also known as Robotic Mobile Fulfilment Systems, continues to receive attention in industry and academia since their introduction as Kiva systems. A key component of AGV-based OP systems is the ‘robots’ (or AGVs) that pick up the ‘pods’ and transport them to the appropriate pick station (PS), where a picker picks the items ordered by customers. The performance of such systems depends on the shape of the forward area (FA) and the number of AGVs, which in turn depends on the time it takes an AGV to retrieve a pod. To aid system designers, we explore alternative shapes for the FA and we derive closed-form expressions for the expected AGV travel distances under two possible order assignment rules. Under the random assignment rule, an order is assigned to any PS with equal probability. Under the closest assignment rule, the order is assigned to the closest PS. We also examine the impact of alternative PS configurations for different shapes of the FA. The results offer valuable insights concerning expected travel distances under alternative design configurations. The results would also be useful when building design and performance evaluation models for AGV-based OP systems.

自动导引车订单拣选系统仓储物流机器人仿真