A Hierarchical Modeling Approach to Improve Scheduling of Manufacturing Processes

2022 IEEE 31st International Symposium on Industrial Electronics (ISIE) Pub Date : 2022-06-01 DOI:10.1109/isie51582.2022.9831468

Sebastiano Gaiardelli, Stefano Spellini, M. Lora, F. Fummi

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引用次数: 2

Abstract

Timely response to sudden production events and requirements shifts is a key feature of Industry 4.0. It requires techniques to manipulate and optimize the production processes, and components providing an high degree of reconfigurability. To acknowledge to such demands, this paper presents a multi-level and hierarchical approach to manufacturing processes modeling. Models are structured to represent the production hierarchically: partitioning recipes in a set of tasks, allocated to machines' manufacturing services and expressed as a sequence of elementary actions. Then, we propose a run-time scheduling algorithm able to exploit the novel structure given to knowledge by the proposed modeling approach. The algorithm aims at minimizing the makes pan while maximizing machines utilization. We validate the contributions of this paper on a full-fledged production line. The modeling strategy has been implemented in SysML: a well-known systems modeling language. The experiments show the presented model and the proposed scheduling approach enabling a more precise and more performing control over the manufacturing process.

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一种改进制造过程调度的分层建模方法

及时响应突发的生产事件和需求变化是工业4.0的一个关键特征。它需要操作和优化生产过程的技术，以及提供高度可重构性的组件。为了满足这些需求，本文提出了一种多层次、分层的制造过程建模方法。模型的结构是按层次结构表示生产:将配方划分为一组任务，分配给机器的制造服务，并表示为一系列基本操作。然后，我们提出了一种运行时调度算法，该算法能够利用所提出的建模方法赋予知识的新结构。该算法的目标是在最大限度地提高机器利用率的同时，使加工盘最小化。我们在一条成熟的生产线上验证了本文的贡献。该建模策略已在SysML中实现:SysML是一种著名的系统建模语言。实验表明，所提出的模型和调度方法能够对制造过程进行更精确、更有效的控制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 IEEE 31st International Symposium on Industrial Electronics (ISIE)

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