Entity recognition method for airborne products metrological traceability knowledge graph construction

Abstract

The airborne system, as one of the complex and extensive subsystems of an aircraft, primarily performs critical flight assurance functions. The quality of its components has a direct impact on the aircraft's safety and reliability. Metrology documents comprehensively document the performance parameters throughout the entire product life cycle. The Metrological Traceability Knowledge Graph (MTKG) for airborne products offers decision support to engineers engaged in metrological tasks, ensuring the continuous high quality of the products. This paper introduces an entity recognition method for airborne product metrological traceability knowledge graph construction. First, the ontology for MTKG is developed. Next, a fine-tuned multi-network model is proposed. Named entities in the field of metrology are recognized through three stages: word vector representation, sentence feature extraction, and optimal label assignment. Meanwhile, active learning methods are incorporated to reduce the expense of data annotation. The proposed model is validated using an actual metrology corpus, and the experimental results demonstrate its superior performance compared to the other four baseline methods. Finally, the MTKG is developed using this approach, offering engineers intelligent applications, including metrological traceability analysis and traceability path reasoning within the process of product metrology. This enhances the metrology capabilities of airborne products and demonstrates the extensive potential of knowledge graphs in metrology.