English

LLM-Based Multi-Hop Question Answering with Knowledge Graph Integration in Evolving Environments

Computation and Language 2024-12-05 v2

Abstract

The important challenge of keeping knowledge in Large Language Models (LLMs) up-to-date has led to the development of various methods for incorporating new facts. However, existing methods for such knowledge editing still face difficulties with multi-hop questions that require accurate fact identification and sequential logical reasoning, particularly among numerous fact updates. To tackle these challenges, this paper introduces Graph Memory-based Editing for Large Language Models (GMeLLo), a straightforward and effective method that merges the explicit knowledge representation of Knowledge Graphs (KGs) with the linguistic flexibility of LLMs. Beyond merely leveraging LLMs for question answering, GMeLLo employs these models to convert free-form language into structured queries and fact triples, facilitating seamless interaction with KGs for rapid updates and precise multi-hop reasoning. Our results show that GMeLLo significantly surpasses current state-of-the-art (SOTA) knowledge editing methods in the multi-hop question answering benchmark, MQuAKE, especially in scenarios with extensive knowledge edits.

Keywords

Cite

@article{arxiv.2408.15903,
  title  = {LLM-Based Multi-Hop Question Answering with Knowledge Graph Integration in Evolving Environments},
  author = {Ruirui Chen and Weifeng Jiang and Chengwei Qin and Ishaan Singh Rawal and Cheston Tan and Dongkyu Choi and Bo Xiong and Bo Ai},
  journal= {arXiv preprint arXiv:2408.15903},
  year   = {2024}
}
R2 v1 2026-06-28T18:26:44.583Z