CDFA method: a way to assess assembly and installation performance of aircraft system architectures at the conceptual design.

IF 2.3 3区 工程技术 Q3 ENGINEERING, INDUSTRIAL Research in Engineering Design Pub Date : 2022-01-01 Epub Date: 2022-01-18 DOI:10.1007/s00163-021-00378-5
Giovanni Formentini, Francois Bouissiere, Claude Cuiller, Pierre-Eric Dereux, Claudio Favi
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引用次数: 1

Abstract

This paper describes an engineering design methodology, called conceptual design for assembly (CDFA) in the context of aircraft development, to assess aircraft systems' installation during conceptual phase, in relation to industrial performance objectives. The methodology is based on a given framework (hierarchical structure) which includes a set of attributes, collected in recognized domains that characterize the aircraft systems installation. The framework of the CDFA methodology enables to analyze product architectures at different levels of granularity, splitting the global analysis into sub-problems (problem discretization) with the aim to help architects and designers to identify product architecture weaknesses in terms of fit for assembly performances. The CDFA methodology was applied on a complex system (the nose-fuselage of a commercial aircraft) presenting a high number of criticalities both for the product and its assembly operations. Results identified the architectural components leading to the less efficient assembly operations and the rationales enabling to elaborate alternative architectures for an improved product industrial efficiency.

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CDFA方法:一种在概念设计阶段评估飞机系统架构装配与安装性能的方法。
本文描述了一种工程设计方法,称为概念装配设计(CDFA),在飞机开发的背景下,评估飞机系统在概念阶段的安装,与工业性能目标有关。该方法基于一个给定的框架(层次结构),其中包括一组属性,这些属性收集在表征飞机系统安装的识别域中。CDFA方法的框架能够在不同的粒度级别上分析产品架构,将全局分析分解为子问题(问题离散化),目的是帮助架构师和设计师识别产品架构在适合装配性能方面的弱点。CDFA方法应用于一个复杂的系统(商用飞机的机头机身),该系统对产品及其装配操作都具有大量的临界性。结果确定了导致效率较低的组装操作的架构组件,以及能够为改进产品工业效率而精心设计替代架构的基本原理。
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来源期刊
Research in Engineering Design
Research in Engineering Design 工程技术-工程:工业
CiteScore
7.80
自引率
12.50%
发文量
23
审稿时长
18 months
期刊介绍: Research in Engineering Design is an international journal that publishes research papers on design theory and methodology in all fields of engineering, focussing on mechanical, civil, architectural, and manufacturing engineering. The journal is designed for professionals in academia, industry and government interested in research issues relevant to design practice. Papers emphasize underlying principles of engineering design and discipline-oriented research where results are of interest or extendible to other engineering domains. General areas of interest include theories of design, foundations of design environments, representations and languages, models of design processes, and integration of design and manufacturing. Representative topics include functional representation, feature-based design, shape grammars, process design, redesign, product data base models, and empirical studies. The journal also publishes state-of-the-art review articles.
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