Modularized Transfer Learning with Multiple Knowledge Graphs for Zero-shot Commonsense Reasoning

North American Chapter of the Association for Computational Linguistics Pub Date : 2022-06-08 DOI:10.48550/arXiv.2206.03715

Yu Jin Kim, Beong-woo Kwak, Youngwook Kim, Reinald Kim Amplayo, Seung-won Hwang, Jinyoung Yeo

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引用次数: 6

Abstract

Commonsense reasoning systems should be able to generalize to diverse reasoning cases. However, most state-of-the-art approaches depend on expensive data annotations and overfit to a specific benchmark without learning how to perform general semantic reasoning. To overcome these drawbacks, zero-shot QA systems have shown promise as a robust learning scheme by transforming a commonsense knowledge graph (KG) into synthetic QA-form samples for model training. Considering the increasing type of different commonsense KGs, this paper aims to extend the zero-shot transfer learning scenario into multiple-source settings, where different KGs can be utilized synergetically. Towards this goal, we propose to mitigate the loss of knowledge from the interference among the different knowledge sources, by developing a modular variant of the knowledge aggregation as a new zero-shot commonsense reasoning framework. Results on five commonsense reasoning benchmarks demonstrate the efficacy of our framework, improving the performance with multiple KGs.

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零shot常识推理的多知识图模块化迁移学习

常识推理系统应该能够推广到不同的推理案例。然而，大多数最先进的方法依赖于昂贵的数据注释和对特定基准的过拟合，而不学习如何执行一般的语义推理。为了克服这些缺点，zero-shot QA系统通过将常识知识图(KG)转换为用于模型训练的合成QA形式样本，显示出了作为鲁棒学习方案的希望。考虑到不同常识性KGs类型的增加，本文旨在将零射击迁移学习场景扩展到多源设置中，从而可以协同利用不同的KGs。针对这一目标，我们提出了一种模块化的知识聚合变体，作为一种新的零shot常识推理框架，以减轻不同知识来源之间的干扰所造成的知识损失。五个常识性推理基准测试的结果证明了我们的框架的有效性，提高了多个kg的性能。

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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North American Chapter of the Association for Computational Linguistics

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