基于本体的供应链可持续性评估KBE应用

IF 12.4 Q1 ENVIRONMENTAL SCIENCES
Liang Zhang, Anna Olsen, Andrei Lobov
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引用次数: 2

摘要

产品生命周期管理(PLM)在工业4.0和生命周期评估(包括可持续性评估)所要求的数字化转型中发挥着关键作用。基于知识的工程(KBE)应用程序可以通过集成来自产品生命周期不同阶段的异构知识来支持PLM。然而,来自不同阶段和团队的知识的集成如果不以统一的形式表示,可能会引起误解。此外,不同软件使用的不同形式的知识既不具有机器可读性,也不具有人类可读性,这也给知识be应用中的知识集成设置了障碍。供应链可持续性评估就是这样一个场景,需要整合来自不同来源的知识。本文首先实现了其他学者的可持续性评估方法来计算供应链的可持续性绩效,并将可持续性评估本体应用于供应链的可持续性评估。然后,通过实施可持续性评估本体和计算方法,开发了一个KBE应用实例,模拟了不同团队之间的知识共享和集成。最后,通过实例应用,讨论了在PLM应用中实现本体来表示知识,用于可持续性评估等协同任务,可以提高数据共享和集成的效率。本文对基于本体的框架进行了概念验证。该框架有利于表示知识,但不能创造新的知识,这意味着它可以提高软件开发的效率,但不能为供应链可持续性评估提供更好的计算方法和评估框架。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

An ontology-based KBE application for supply chain sustainability assessment

An ontology-based KBE application for supply chain sustainability assessment

Product Lifecycle Management (PLM) plays a key role in digital transformation demanded by Industry 4.0 and life cycle assessment, including sustainability assessment. Knowledge Based Engineering (KBE) applications can support PLM by integrating heterogeneous knowledge from different stages throughout the product life. However, the integration of knowledge from different stages and teams can cause misunderstanding if not represented in a unified form. Furthermore, different forms of knowledge used by different software are neither machine-readable nor human-readable, which also sets obstacles to knowledge integration in KBE applications. Supply chain sustainability assessment is such a scenario that entails integrating knowledge from different sources. This paper firstly implements a sustainability assessment method from other scholar to calculate the supply chain sustainability performance and adapts a sustainability assessment ontology for supply chain sustainability assessment. Then, an example KBE application is developed by implementing the sustainability assessment ontology and calculation method to simulate the knowledge sharing and integration between different teams. Finally, through this example application, it is discussed that the implementation of ontology to represent knowledge in PLM application for collaborative tasks like sustainability assessment can increase the efficiency of data sharing and integration. This paper is a proof of concept for the ontology-based framework. This framework can facilitate to represent knowledge but not create new knowledge, which means it can increase the efficiency of the software development, but cannot provide a better calculation method and assessment framework for supply chain sustainability assessment.

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来源期刊
Resources Environment and Sustainability
Resources Environment and Sustainability Environmental Science-Environmental Science (miscellaneous)
CiteScore
15.10
自引率
0.00%
发文量
41
审稿时长
33 days
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