RelBERT: Embedding relations with language models

IF 4.6 2区计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Artificial Intelligence Pub Date : 2025-05-15 DOI:10.1016/j.artint.2025.104359

Asahi Ushio, Jose Camacho-Collados, Steven Schockaert

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引用次数: 0

Abstract

Many applications need access to background knowledge about how different concepts and entities are related. Although Large Language Models (LLM) can address this need to some extent, LLMs are inefficient and difficult to control. As an alternative, we propose to extract relation embeddings from relatively small language models. In particular, we show that masked language models such as RoBERTa can be straightforwardly fine-tuned for this purpose, using only a small amount of training data. The resulting model, which we call RelBERT, captures relational similarity in a surprisingly fine-grained way, allowing us to set a new state-of-the-art in analogy benchmarks. Crucially, RelBERT is capable of modelling relations that go well beyond what the model has seen during training. For instance, we obtained strong results on relations between named entities with a model that was only trained on lexical relations between concepts, and we observed that RelBERT can recognise morphological analogies despite not being trained on such examples. Overall, we find that RelBERT significantly outperforms strategies based on prompting language models that are several orders of magnitude larger, including recent GPT-based models and open source models.¹

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用语言模型嵌入关系

许多应用程序需要访问有关不同概念和实体如何相关的背景知识。尽管大型语言模型（LLM）可以在一定程度上解决这一需求，但LLM效率低下且难以控制。作为替代方案，我们建议从相对较小的语言模型中提取关系嵌入。特别地，我们展示了像RoBERTa这样的屏蔽语言模型可以直接为此目的进行微调，只使用少量的训练数据。由此产生的模型，我们称之为RelBERT，以一种令人惊讶的细粒度方式捕获关系相似性，使我们能够在类比基准中设置新的最先进的技术。至关重要的是，RelBERT能够对远远超出模型在训练期间所看到的关系进行建模。例如，我们使用一个只在概念之间的词汇关系上训练的模型，在命名实体之间的关系上获得了强有力的结果，我们观察到RelBERT可以识别形态类比，尽管没有在这样的例子上训练。总的来说，我们发现RelBERT显著优于基于提示语言模型的策略，这些模型要大几个数量级，包括最近的基于gpt的模型和开源模型

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来源期刊

Artificial Intelligence 工程技术-计算机：人工智能

CiteScore

11.20

自引率

1.40%

发文量

118

审稿时长

8 months

期刊介绍： The Journal of Artificial Intelligence (AIJ) welcomes papers covering a broad spectrum of AI topics, including cognition, automated reasoning, computer vision, machine learning, and more. Papers should demonstrate advancements in AI and propose innovative approaches to AI problems. Additionally, the journal accepts papers describing AI applications, focusing on how new methods enhance performance rather than reiterating conventional approaches. In addition to regular papers, AIJ also accepts Research Notes, Research Field Reviews, Position Papers, Book Reviews, and summary papers on AI challenges and competitions.