多深度穿梭式仓储系统的行程时间模型

Travel time model for multiple-deep shuttle-based storage and retrieval systems

International Journal of Production Research · 2023
被引 16
ABS 3

中文导读

针对双深、三深、四深和五深穿梭式仓储系统,提出基于概率论的行程时间解析模型,可估算系统性能,并通过仿真验证了模型有效性。

Abstract

The paper presents an analytical model for travel time evaluation in double-deep, triple-deep, quadruple-deep and fivefold-deep tier-captive shuttle-based storage and retrieval system (SBS/RS). Under the assumption of the deepest location rule for the storage process and the nearest neighbour rule for the retrieval process, the expressions for single-command and dual-command cycle times of the shuttle vehicle and elevator are developed, from which the SBS/RS performance can be estimated. The model based on the probability theory enables the evaluation of all individual times that make up the cycle times and assessment of the average number of totes relocated during a retrieval process. Special attention is devoted to the modelling of the relocation of totes which block access to the requested tote during the retrieval process. The validity of the analytical model is examined via the developed simulation model. The given case study shows that the proposed analytical travel time model results match the results of the simulation model. The presented modelling strategy could be applied to bigger system racking depths following the same modelling logic.

仓储系统行程时间模型物流工程运筹学