My Ontologist: Evaluating BFO-Based AI for Definition Support

Carter Benson, Alec Sculley, Austin Liebers, John Beverley
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Abstract

Generative artificial intelligence (AI), exemplified by the release of GPT-3.5 in 2022, has significantly advanced the potential applications of large language models (LLMs), including in the realms of ontology development and knowledge graph creation. Ontologies, which are structured frameworks for organizing information, and knowledge graphs, which combine ontologies with actual data, are essential for enabling interoperability and automated reasoning. However, current research has largely overlooked the generation of ontologies extending from established upper-level frameworks like the Basic Formal Ontology (BFO), risking the creation of non-integrable ontology silos. This study explores the extent to which LLMs, particularly GPT-4, can support ontologists trained in BFO. Through iterative development of a specialized GPT model named "My Ontologist," we aimed to generate BFO-conformant ontologies. Initial versions faced challenges in maintaining definition conventions and leveraging foundational texts effectively. My Ontologist 3.0 showed promise by adhering to structured rules and modular ontology suites, yet the release of GPT-4o disrupted this progress by altering the model's behavior. Our findings underscore the importance of aligning LLM-generated ontologies with top-level standards and highlight the complexities of integrating evolving AI capabilities in ontology engineering.
我的本体论者评估基于 BFO 的定义支持人工智能
以 2022 年发布的 GPT-3.5 为代表的生成人工智能(AI)极大地推动了大型语言模型(LLM)的潜在应用,包括本体开发和知识图谱创建领域。本体是组织信息的结构化框架,知识图谱则将本体与实际数据相结合,对于实现互操作性和自动推理至关重要。然而,目前的研究在很大程度上忽视了从已有的上层框架(如基本规范本体(BFO))延伸出的本体的生成,这有可能造成不可整合的本体孤岛。通过迭代开发名为 "我的本体论者 "的专用GPT模型,我们旨在生成符合BFO的本体。My Ontologist 3.0通过坚持结构化规则和模块化本体套件显示出了前景,然而GPT-4o的发布通过改变模型的行为破坏了这一进展。我们的发现强调了使 LLM 生成的本体与顶级标准保持一致的重要性,并突出了在本体工程中整合不断发展的人工智能能力的复杂性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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