Dynamic platform modeling for concurrent product-production reconfiguration

Jonas Landahl, R. Jiao, J. Madrid, R. Söderberg, H. Johannesson
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引用次数: 9

Abstract

To meet a wide range of customer needs, a variety of product concepts can be modeled employing a platform approach. Whereas frequent market changes can be accommodated by dynamically modifying product concepts in iterations, capabilities in production are seldom well incorporated as part of design iterations. In this paper, a dynamic platform modeling approach that supports concurrent product-production reconfiguration is presented. The approach builds on Set-Based Concurrent Engineering (SBCE) processes and a function modeling technique is used to represent product-production variety streams inherent in a production operation model. To demonstrate the approach, a comprehensive case from the aerospace industry is presented. Conceptual representations of a set of aero engine sub-systems and a variety of welding configurations, including their inherent constraints, are mutually modeled and assessed. The results show that a set of product-production alternatives can be dynamically controlled by integrating product-production constraints using a production operation model. Following SBCE processes, inferior alternatives can be put aside until new information becomes available and a new set of alternatives can be reconfigured. The dynamics and concurrency of the approach can potentially reduce the risk of late and costly modifications that propagate from design to production.
面向并发产品-生产重构的动态平台建模
为了满足广泛的客户需求,可以使用平台方法对各种产品概念进行建模。虽然频繁的市场变化可以通过在迭代中动态修改产品概念来适应,但生产中的功能很少被很好地纳入设计迭代的一部分。提出了一种支持产品-生产并行重构的动态平台建模方法。该方法建立在基于集合的并发工程(SBCE)过程的基础上,并使用功能建模技术来表示生产操作模型中固有的产品-生产多样性流。为了演示该方法,给出了一个来自航空航天工业的综合案例。一组航空发动机子系统和各种焊接配置的概念表示,包括其固有约束,相互建模和评估。结果表明,利用生产运行模型,通过集成产品-生产约束,可以对一组产品-生产备选方案进行动态控制。按照SBCE流程,可以将较差的替代方案放在一边,直到获得新的信息,并且可以重新配置一组新的替代方案。该方法的动态性和并发性可以潜在地降低从设计传播到生产的后期和昂贵的修改的风险。
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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