人机协作限制下的混合模型双边拆解线平衡问题优化与建模

Optimising and modeling the mixed-model two-sided disassembly line balancing problem with human-robot cooperation restrictions

International Journal of Production Research · 2025
被引 6
ABS 3

中文导读

研究了人机协作在双边拆解线平衡问题中的应用,通过数学建模和仿真优化周期时间,并分析技能水平、产品质量等因素对关键绩效指标的影响,为决策者提供优化拆解线性能的工具。

Abstract

This study examines human-robot cooperation in a two-sided disassembly line balancing problem, emphasising its importance in enhancing line flexibility and efficiency in the industry. A mathematical model is applied to optimise the cycle time, followed by a simulation model to account for the uncertainty arising from the factors: skill level of resources, the quality of End-of-life (EOL) products, and the number of running workstations. Statistical analysis through design of experiment and ANOVA shows that the factors and their interactions significantly affect the KPIs: time in the system, cycle time, and average resource utilisation. Then, the response optimiser composite desirability was used to determine the level of factors that simultaneously minimise cycle time and TIS while maximising average resource utilisation under different running conditions. The distribution with the shortest disassembly time consistently achieved the highest composite desirability in all examples. Although increasing the number of workstations reduces or maintains cycle time, it does not always lead to proportional gains. A tailored dashboard was developed to support decision-makers in making informed choices regarding workstations and operational factors, thereby optimising disassembly line performance for diverse EOL product needs.

拆解线平衡人机协作优化建模仿真分析工业工程