Building A Knowledge Graph to Enrich ChatGPT Responses in Manufacturing Service Discovery
- URL: http://arxiv.org/abs/2404.06571v1
- Date: Tue, 9 Apr 2024 18:46:46 GMT
- Title: Building A Knowledge Graph to Enrich ChatGPT Responses in Manufacturing Service Discovery
- Authors: Yunqing Li, Binil Starly,
- Abstract summary: This study proposes a method that integrates bottom-up ontology with advanced machine learning models to develop a Manufacturing Service Knowledge Graph.
The Knowledge Graph and the learned graph embedding vectors are leveraged to tackle intricate queries within the digital supply chain network.
The approach highlighted is scalable to millions of entities that can be distributed to form a global Manufacturing Service Knowledge Network Graph.
- Score: 0.5919433278490629
- License: http://creativecommons.org/licenses/by-nc-nd/4.0/
- Abstract: Sourcing and identification of new manufacturing partners is crucial for manufacturing system integrators to enhance agility and reduce risk through supply chain diversification in the global economy. The advent of advanced large language models has captured significant interest, due to their ability to generate comprehensive and articulate responses across a wide range of knowledge domains. However, the system often falls short in accuracy and completeness when responding to domain-specific inquiries, particularly in areas like manufacturing service discovery. This research explores the potential of leveraging Knowledge Graphs in conjunction with ChatGPT to streamline the process for prospective clients in identifying small manufacturing enterprises. In this study, we propose a method that integrates bottom-up ontology with advanced machine learning models to develop a Manufacturing Service Knowledge Graph from an array of structured and unstructured data sources, including the digital footprints of small-scale manufacturers throughout North America. The Knowledge Graph and the learned graph embedding vectors are leveraged to tackle intricate queries within the digital supply chain network, responding with enhanced reliability and greater interpretability. The approach highlighted is scalable to millions of entities that can be distributed to form a global Manufacturing Service Knowledge Network Graph that can potentially interconnect multiple types of Knowledge Graphs that span industry sectors, geopolitical boundaries, and business domains. The dataset developed for this study, now publicly accessible, encompasses more than 13,000 manufacturers' weblinks, manufacturing services, certifications, and location entity types.
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