基于仿真的弯管机切割生成联合工作站、工作量和缓冲区分配问题

Mengyi Zhang, A. Matta, A. Alfieri, Giulia Pedrielli
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引用次数: 6

摘要

提出了离散事件优化(DEO)框架,建立了开放流水线联合工作站、工作量和缓冲区分配问题(JWWBAP)的仿真优化模型。然而,由于DEO模型是一个混合整数线性规划模型,求解其最优性的计算量相当大。本文提出了一种仿真切割方法来有效地求解JWWBAP的DEO模型。具体来说,将DEO模型分解为优化模型和仿真模型,这两个模型分别是bender分解中的主问题和子问题。通过求解优化模型找到系统组态,通过求解仿真模型在优化模型中添加切削量。提出了一种利用仿真轨迹生成切口的算法。数值分析表明,精确的DEO模型可以有效地求解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A simulation-based benders' cuts generation for the joint workstation, workload and buffer allocation problem
The Discrete Event Optimization (DEO) framework was recently proposed to formulate the simulation-optimization model of the Joint Workstation, Workload and Buffer Allocation Problem (JWWBAP) of the open flow line. However, the computational effort to solve the DEO model at optimality is quite high, because it is a mixed integer linear programming model. This work proposes a simulation cutting approach to efficiently solve the DEO model of the JWWBAP. Specifically, the DEO model is decomposed into an optimization model and a simulation model, which are the master problem and the subproblem in Benders decomposition, respectively. The optimization model is solved to find a system configuration, and the simulation model is solved to add cuts to the optimization model. An algorithm is proposed to generate cut using the simulation trajectory. Numerical analysis shows that the exact DEO model can be solved efficiently.
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