Manufacturing operational management modeling using interpreted Petri nets

Q3 Engineering

Gestao e Producao Pub Date : 2020-01-01 DOI:10.1590/0104-530x3920-20

Diego Nogueira Guirro, O. L. Asato, G. Santos, F. Y. Nakamoto

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引用次数: 3

Abstract

Abstract: The dynamics of the interaction between different levels in production system is the study of many research groups to seek a better understanding of the complex nature of such systems to propose an effective and efficiency from rational use of available resources and required inputs. Demand for products increasingly customized by a dynamic and competitive market has reduced considerably the life cycle of such products and flexibility of production processes has become essential for companies. Flexibility is not only one attribute, but a set of attributes that provides the flexibility for production systems. The interactions between the flexible sub-systems are sources of waste and rework, causing high costs in the production process. In this sense, the concept of Lean Manufacturing has promoted a restructuring of some processes of the MES (Manufacturing Execution Systems), responsible for managing the activities of production, integrate data from the ERP (Enterprise Resource Planning) and synchronize production tasks the flow of materials, making them oriented by the demand. One other important aspect in the industrial context is the new future vision promoted by Industry 4.0 paradigm that is envisioned a complete decentralization of control of the production system by autonomous and intelligent devices interconnected by a communication system, that contribute to the global goals of the enterprise. The ANSI/ISA S95 presents a conceptual model that may contribute to the implementation of the industry 4.0 concept. The objective of this study is to present a proposal for modeling of objects in level 3 of the S95 standard using interpreted Petri nets.

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使用解释Petri网的制造运营管理建模

摘要:生产系统中不同层次之间相互作用的动态性是许多研究小组为寻求更好地理解这类系统的复杂性，从而提出一种有效和高效的从合理利用可用资源和所需投入的方法而进行的研究。一个充满活力和竞争的市场对日益定制化的产品的需求大大缩短了这类产品的生命周期，生产过程的灵活性对公司来说变得至关重要。灵活性不仅仅是一个属性，而是为生产系统提供灵活性的一组属性。柔性子系统之间的相互作用是浪费和返工的来源，导致生产过程中的高成本。从这个意义上说，精益制造的概念促进了MES(制造执行系统)的一些流程的重组，MES(制造执行系统)负责管理生产活动，整合来自ERP(企业资源计划)的数据，并同步生产任务和物料流，使其以需求为导向。工业环境中的另一个重要方面是由工业4.0范式推动的新的未来愿景，它设想通过通信系统互联的自主和智能设备完全分散对生产系统的控制，这有助于实现企业的全球目标。ANSI/ISA S95提出了一个可能有助于实现工业4.0概念的概念模型。本研究的目的是提出使用解释Petri网对S95标准第3级对象进行建模的建议。

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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来源期刊

Gestao e Producao Engineering-Industrial and Manufacturing Engineering

CiteScore

1.60

自引率

0.00%

发文量

审稿时长

44 weeks

期刊介绍： Gestão & Produção is a journal published four times a year year (March, June, September and December) by the Departamento de Engenharia de Produção (DEP) of Universidade Federal de São Carlos (UFSCar). The first issue of Gestão & Produção was published in April, 1994. Actually, G&P was result of experience of professors of DEP/UFSCar in editing, in the beginning, "Cadernos DEP" in the 1980s, followed by "Cadernos de Engenharia de Produção". The last three issues of "Cadernos de Engenharia de Produção" were a test previous to the launch of Gestão & Produção because most of the journal characteristics were already established, like regularity.