Enhancing Knowledge Graph Consistency through Open Large Language Models: A Case Study

Proceedings of the AAAI Symposium Series Pub Date : 2024-05-20 DOI:10.1609/aaaiss.v3i1.31201

Ankur Padia, Francis Ferraro, Tim Finin

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Abstract

High-quality knowledge graphs (KGs) play a crucial role in many applications. However, KGs created by automated information extraction systems can suffer from erroneous extractions or be inconsistent with provenance/source text. It is important to identify and correct such problems. In this paper, we study leveraging the emergent reasoning capabilities of large language models (LLMs) to detect inconsistencies between extracted facts and their provenance. With a focus on ``open'' LLMs that can be run and trained locally, we find that few-shot approaches can yield an absolute performance gain of 2.5-3.4% over the state-of-the-art method with only 9% of training data. We examine the LLM architectures' effect and show that Decoder-Only models underperform Encoder-Decoder approaches. We also explore how model size impacts performance and counterintuitively find that larger models do not result in consistent performance gains. Our detailed analyses suggest that while LLMs can improve KG consistency, the different LLM models learn different aspects of KG consistency and are sensitive to the number of entities involved.

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通过开放式大型语言模型增强知识图谱的一致性：案例研究

高质量的知识图谱（KG）在许多应用中发挥着至关重要的作用。然而，自动信息提取系统创建的知识图谱可能会出现提取错误或与出处/源文本不一致的情况。发现并纠正这些问题非常重要。在本文中，我们将研究如何利用大型语言模型（LLM）的新兴推理能力来检测提取事实与其出处之间的不一致性。我们将重点放在可在本地运行和训练的 "开放式 "LLM 上，结果发现，与最先进的方法相比，只需 9% 的训练数据，少数几种方法就能产生 2.5-3.4% 的绝对性能增益。我们研究了 LLM 架构的影响，结果表明仅解码器模型的性能低于编码器-解码器方法。我们还探讨了模型大小对性能的影响，并意外地发现较大的模型并不能带来一致的性能提升。我们的详细分析表明，虽然 LLM 可以提高 KG 一致性，但不同的 LLM 模型学习 KG 一致性的不同方面，并且对所涉及的实体数量很敏感。

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