Knowledge-based digital twin system: Using a knowlege-driven approach for manufacturing process modeling

IF 8.2 1区 计算机科学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Chang Su , Yong Han , Xin Tang , Qi Jiang , Tao Wang , Qingchen He
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引用次数: 0

Abstract

The Knowledge-Based Digital Twin System is a digital twin system developed on the foundation of a knowledge graph, aimed at serving the complex manufacturing process. This system embraces a knowledge-driven modeling approach, aspiring to construct a digital twin model for the manufacturing process, thereby enabling precise description, management, prediction, and optimization of the process. The core of this system lies in the comprehensive knowledge graph that encapsulates all pertinent information about the manufacturing process, facilitating dynamic modeling and iteration through knowledge matching and inference within the knowledge, geometry, and decision model. This approach not only ensures consistency across models but also addresses the challenge of coupling multi-source heterogeneous information, creating a holistic and precise information model. As the manufacturing process deepens and knowledge accumulates, the model's understanding of the process progressively enhances, promoting self-evolution and continuous optimization. The developed knowledge-decision-geometry model acts as the ontological layer within the digital twin framework, laying a foundational conceptual framework for the digital twin of the manufacturing process. Validated on an aero-engine blade production line in a factory, the results demonstrate that the knowledge model, as the core driver, enables continuous self-updating of the geometric model for an accurate depiction of the entire manufacturing process, while the decision model provides deep insights for decision-makers based on knowledge. The system not only effectively controls, predicts, and optimizes the manufacturing process but also continually evolves as the process advances. This research offers a new perspective on the realization of the digital twin for the manufacturing process, providing solid theoretical support with a knowledge-driven approach.

基于知识的数字孪生系统:使用知识驱动方法进行制造过程建模
基于知识的数字孪生系统是在知识图谱基础上开发的数字孪生系统,旨在服务于复杂的制造过程。该系统采用知识驱动的建模方法,旨在为制造流程构建数字孪生模型,从而实现对流程的精确描述、管理、预测和优化。该系统的核心在于全面的知识图谱,它囊括了制造流程的所有相关信息,通过知识、几何和决策模型内的知识匹配和推理,促进动态建模和迭代。这种方法不仅能确保不同模型之间的一致性,还能解决多源异构信息耦合的难题,创建一个整体而精确的信息模型。随着制造流程的深化和知识的积累,模型对流程的理解会逐步增强,从而促进自我进化和持续优化。所开发的知识-决策-几何模型作为数字孪生框架中的本体层,为制造过程的数字孪生奠定了基础概念框架。通过在一家工厂的航空发动机叶片生产线上进行验证,结果表明,知识模型作为核心驱动力,能够实现几何模型的持续自我更新,从而准确描述整个制造过程,而决策模型则为决策者提供了基于知识的深刻见解。该系统不仅能有效控制、预测和优化制造流程,还能随着流程的推进而不断发展。这项研究为实现制造过程的数字孪生提供了一个新的视角,以知识驱动的方法提供了坚实的理论支持。
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来源期刊
Computers in Industry
Computers in Industry 工程技术-计算机:跨学科应用
CiteScore
18.90
自引率
8.00%
发文量
152
审稿时长
22 days
期刊介绍: The objective of Computers in Industry is to present original, high-quality, application-oriented research papers that: • Illuminate emerging trends and possibilities in the utilization of Information and Communication Technology in industry; • Establish connections or integrations across various technology domains within the expansive realm of computer applications for industry; • Foster connections or integrations across diverse application areas of ICT in industry.
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