Solving Unequal-Area Facility Layout Problems with Orbits in Fully Automatic System

Xin-gang Hao, Mingyao Qi
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引用次数: 1

Abstract

The facility layout problem (FLP) has attracted much attention with abundant research on it. This paper studies the facility layout problem under a new industrial background. As increasing factories produce in full-automation, like chip production companies, which need orbits transmit materials, therefore, we consider a layout scheme that the facility is divided into several columns by vertical orbits, and in each column, there are several horizontal orbits with machines along both sides of them. We consider heterogeneous unequal-area machines, each type with more than one, to minimize the total theoretical material transmission distances. This study proposes a mixed integer linear programming (MILP) model to determine the locations of orbits, layouts of facilities as well as the material transmission routes which could lead to a global optimal solution. Through designed experiments, the results show how the parameter setting can affect the performance of the solution.
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求解全自动化系统中带轨道的不等面积设施布局问题
设施布局问题引起了人们的广泛关注,并进行了大量的研究。本文研究了新工业背景下的设施布局问题。随着越来越多的工厂实现全自动化生产,如芯片生产公司,需要轨道传输材料,因此,我们考虑一种布局方案,即通过垂直轨道将设施分成几列,每列中有几个水平轨道,两侧都有机器。我们考虑异质非等面积机器,每一种机器都有一个以上,以最小化总理论材料传输距离。本文提出了一种混合整数线性规划(MILP)模型,用于确定轨道位置、设施布局以及材料传输路径,从而导致全局最优解。通过设计实验,结果表明了参数设置对溶液性能的影响。
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