Application of Models for Manufacturing (MfM) Methodology to Aerospace Sheet Metal Parts Manufacturing

IF 1 Q3 ENGINEERING, MULTIDISCIPLINARY
Matheus Herman Bernardim Andrade, Anderson Luis Szejka, Fernando Mas
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引用次数: 0

Abstract

With the advancement of globalization and the growth of Industry 4.0, it is necessary to apply new concepts and methods for manufacturing to increase the productive capacity and efficiency of processes. These concepts allow the application of intelligent manufacturing within the Aerospace industry, responsible for transforming manufacturing processes using software technologies based on artificial intelligence, to automate the Sheet Metal Parts modeling process and get more accurate data. Therefore, it applies to Models for Manufacturing (MfM) in product projects, a recent methodology that presents an organization for formally defined information and knowledge. However, MfM does not consider information tracing and inconsistency analysis in the modeling phases. Based on this paradigm, a solution is proposed by developing and adopting methods, processes, and tools of Ontology-Based Engineering based on the MfM model to obtain data. In addition, Semantic Technologies are used for data processing through an OWL structure, also formalizing the information through semantic rules in SWRL. This research aims to: (I) Obtain data extracted from Sheet Metal Parts and structure them from ontology; (II) Formalize information about this data using semantic rules; (III) Validate information between product and manufacturing projects to identify and address inconsistencies in advance.
制造模型(MfM)方法在航空航天钣金件制造中的应用
随着全球化的推进和工业4.0的发展,有必要将新的概念和方法应用于制造业,以提高生产能力和流程效率。这些概念允许在航空航天工业中应用智能制造,负责使用基于人工智能的软件技术改造制造过程,使钣金零件建模过程自动化并获得更准确的数据。因此,它适用于产品项目中的制造模型(MfM),这是一种最近的方法,它为正式定义的信息和知识提供了一个组织。然而,MfM在建模阶段没有考虑信息跟踪和不一致分析。在此基础上,提出了一种基于MfM模型的基于本体的工程方法、流程和工具的数据获取解决方案。此外,语义技术用于通过OWL结构进行数据处理,并通过SWRL中的语义规则形式化信息。本研究的目标是:(1)从钣金件本体中提取数据,并进行结构化;(II)使用语义规则形式化这些数据的信息;(三)验证产品和制造项目之间的信息,提前识别和解决不一致之处。
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来源期刊
Advances in Science and Technology-Research Journal
Advances in Science and Technology-Research Journal ENGINEERING, MULTIDISCIPLINARY-
CiteScore
1.60
自引率
27.30%
发文量
152
审稿时长
8 weeks
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