The Compressive Knowledge Graph Hypothesis: Which Graph Facts Matter for Scientific Hypothesis Generation? 文章

ArXiv CS.AI2026-05-27NEWSen作者: Shashwat Sourav, Viktoriia Baibakova, Sanjay Das, Ran Elgedawy, Maria Mahbub, Emily Herron, Tirthankar Ghosal

详细信息

来源站点
ArXiv CS.AI
作者
Shashwat Sourav, Viktoriia Baibakova, Sanjay Das, Ran Elgedawy, Maria Mahbub, Emily Herron, Tirthankar Ghosal
文章类型
NEWS
语言
en
发布日期
2026-05-27

摘要

arXiv:2605.27176v1 Announce Type: new Abstract: Knowledge graphs (KGs) can provide structured scientific context to language models, but it remains unclear which graph facts actually shape the generated hypotheses. We study KG-guided hypothesis generation for battery materials across Mistral-7B, Llama-3.1-70B, and Gemini 2.5 Flash. We perturb local KGs by varying density, ontology richness, topology, and control structure, and evaluate outputs with both provided-graph and fixed-reference metrics. Across models, KG utility is selective and model-dependent: graph context changes outputs, but no-KG outputs also recover substantial graph content from model priors. Compact top-k subgraphs often approximate full-KG behavior, including when claimed-outcome triples are held out. At the same time, compression is not unique to one semantic ranking rule, random and topology-based subsets can also recover much of the signal.