数据驱动的开放式管线停机瓶颈检测

Mengyi Zhang, A. Matta
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引用次数: 3

摘要

制造系统的瓶颈是对整体吞吐量最敏感的资源。瓶颈检测是制造系统改进的一个重要问题。本文提出了一种基于现场数据的离散事件优化(DEO)建模框架的开放管线停机瓶颈(DT-BN)检测方法。DEO模型能够识别停机时间灵敏度最大的机器,而无需计算所有机器的灵敏度。DEO模型是集成样本路径仿真优化问题的数学规划表示,即仿真模型的结构嵌入了优化问题。采用Benders分解,并采用基于仿真的切割生成方法,减少了计算量,无需任何近似。数值结果表明,该方法是有效的、高效的。此外,通过收集更大的数据集,可以进一步提高有效性,因为该方法的收敛性在先前的研究中得到了理论证明,在本工作中得到了数值验证。
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Data-driven Downtime Bottleneck Detection in Open Flow Lines
Bottleneck of a manufacturing system is the resource with the largest sensitivity on the overall throughput. The bottleneck detection is an important problem for manufacturing system improvement. This work proposes a Downtime Bottleneck (DT-BN) detection approach of open flow lines based on the Discrete Event Optimization (DEO) modeling framework using field data. The DEO model enables to identify the machine whose downtime has the largest sensitivity, without calculating the sensitivities of all the machines. The DEO model is a mathematical programming representation of integrated sample-path simulation-optimization problem, i.e., the structure of simulation model is embedded with the optimization problem. The Benders decomposition is applied, and a simulation based cut generation approach is used, which reduces the computational effort without any approximation. Numerical results have shown that the proposed approach performs both effectively and efficiently. Furthermore, the effectiveness can be further improved by gathering a larger set of data, as the convergence of this approach is both proved theoretically in previous research and validated numerically in this work.
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