Automatic Generation Method of Knowledge Graph for Complex Product Assembly Processes Based on Text Mining

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Veröffentlicht in:	Chinese Journal of Mechanical Engineering = Ji xie gong cheng xue bao vol. 38, no. 1 (Dec 2025), p. 133
1. Verfasser:	Li, Kunping
Weitere Verfasser:	Liu, Jianhua, Zhai, Sikuan, Zhuang, Cunbo, Pei, Fengque
Veröffentlicht:	Springer Nature B.V.
Schlagworte:	Machine learning Semantics Deep learning Graphs Documentation Memory Conditional random fields Ontology Data mining Documents Effectiveness Web Ontology Language-OWL Design Process planning Methods Manufacturing Aerospace engineering Knowledge representation Product development
Online-Zugang:	Citation/Abstract Full Text Full Text - PDF
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024	7		\|a 10.1186/s10033-025-01284-w \|2 doi
035			\|a 3234090415
045	2		\|b d20251201 \|b d20251231
100	1		\|a Li, Kunping \|u Beijing Institute of Technology, School of Mechanical Engineering, Beijing, China (GRID:grid.43555.32) (ISNI:0000 0000 8841 6246)
245	1		\|a Automatic Generation Method of Knowledge Graph for Complex Product Assembly Processes Based on Text Mining
260			\|b Springer Nature B.V. \|c Dec 2025
513			\|a Journal Article
520	3		\|a Efficient preparation and assembly guidance for complex products relies heavily on semantic information in assembly process documents. This information encompasses various levels of elements and complex semantic relationships. However, there is currently a scarcity of effective modeling techniques to express these documents’ inherent assembly process knowledge. This study introduces a method for constructing an Assembly Process Knowledge Graph of Complex Products (APKG-CP) utilizing text mining techniques to tackle the challenges of high costs, low efficiency, and difficulty reusing process knowledge. Developing the assembly process knowledge graph involves categorizing entity and relationship classes from multiple levels. The Bert-BiLSTM-CRF model integrates BERT (bidirectional encoder representations from transformers), BiLSTM (bidirectional long short-term memory), and CRF (conditional random field) to extract knowledge entities and relationships in assembly process documents automatically. Furthermore, the knowledge fusion method automatically instantiates the assembly process knowledge graph. The proposed construction method is validated by constructing and visualizing an assembly process knowledge graph using data from an aerospace enterprise as an example. Integrating the knowledge graph with the assembly process preparation system demonstrates its effectiveness for process design.
653			\|a Machine learning
653			\|a Semantics
653			\|a Deep learning
653			\|a Graphs
653			\|a Documentation
653			\|a Memory
653			\|a Conditional random fields
653			\|a Ontology
653			\|a Data mining
653			\|a Documents
653			\|a Effectiveness
653			\|a Web Ontology Language-OWL
653			\|a Design
653			\|a Process planning
653			\|a Methods
653			\|a Manufacturing
653			\|a Aerospace engineering
653			\|a Knowledge representation
653			\|a Product development
700	1		\|a Liu, Jianhua \|u Beijing Institute of Technology, School of Mechanical Engineering, Beijing, China (GRID:grid.43555.32) (ISNI:0000 0000 8841 6246); Tangshan Research Institute, Beijing Institute of Technology, Hebei Key Laboratory of Intelligent assembly and Detection technology, Tangshan, China (GRID:grid.43555.32) (ISNI:0000 0000 8841 6246)
700	1		\|a Zhai, Sikuan \|u Beijing Institute of Technology, School of Mechanical Engineering, Beijing, China (GRID:grid.43555.32) (ISNI:0000 0000 8841 6246)
700	1		\|a Zhuang, Cunbo \|u Beijing Institute of Technology, School of Mechanical Engineering, Beijing, China (GRID:grid.43555.32) (ISNI:0000 0000 8841 6246); Tangshan Research Institute, Beijing Institute of Technology, Hebei Key Laboratory of Intelligent assembly and Detection technology, Tangshan, China (GRID:grid.43555.32) (ISNI:0000 0000 8841 6246)
700	1		\|a Pei, Fengque \|u Beijing Institute of Technology, School of Mechanical Engineering, Beijing, China (GRID:grid.43555.32) (ISNI:0000 0000 8841 6246)
773	0		\|t Chinese Journal of Mechanical Engineering = Ji xie gong cheng xue bao \|g vol. 38, no. 1 (Dec 2025), p. 133
786	0		\|d ProQuest \|t Engineering Database
856	4	1	\|3 Citation/Abstract \|u https://www.proquest.com/docview/3234090415/abstract/embedded/7BTGNMKEMPT1V9Z2?source=fedsrch
856	4	0	\|3 Full Text \|u https://www.proquest.com/docview/3234090415/fulltext/embedded/7BTGNMKEMPT1V9Z2?source=fedsrch
856	4	0	\|3 Full Text - PDF \|u https://www.proquest.com/docview/3234090415/fulltextPDF/embedded/7BTGNMKEMPT1V9Z2?source=fedsrch