Zhengyan Zhang scite author profile

Neural language representation models such as BERT pre-trained on large-scale corpora can well capture rich semantic patterns from plain text, and be fine-tuned to consistently improve the performance of various NLP tasks. However, the existing pre-trained language models rarely consider incorporating knowledge graphs (KGs), which can provide rich structured knowledge facts for better language understanding. We argue that informative entities in KGs can enhance language representation with external knowledge. In this paper, we utilize both large-scale textual corpora and KGs to train an enhanced language representation model (ERNIE), which can take full advantage of lexical, syntactic, and knowledge information simultaneously. The experimental results have demonstrated that ERNIE achieves significant improvements on various knowledge-driven tasks, and meanwhile is comparable with the state-of-the-art model BERT on other common NLP tasks. The source code and experiment details of this paper can be obtained from https:// github.com/thunlp/ERNIE. * indicates equal contribution † Corresponding author: Z.Liu(liuzy@tsinghua.edu.cn) is_a is_a Song Book a u th o r c o m p o s e r Bob Dylan Chronicles: Volume One Blowin' in the wind Songwriter Writer is_a is_a Bob Dylan wrote

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Graph Neural Networks: A Review of Methods and Applications

Zhou¹,

Cui²,

Hu³

et al. 2018

Preprint

509

457

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KEPLER: A Unified Model for Knowledge Embedding and Pre-trained Language Representation

Wang¹,

et al. 2021

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Pre-trained language representation models (PLMs) cannot well capture factual knowledge from text. In contrast, knowledge embedding (KE) methods can effectively represent the relational facts in knowledge graphs (KGs) with informative entity embeddings, but conventional KE models cannot take full advantage of the abundant textual information. In this paper, we propose a unified model for Knowledge Embedding and Pre-trained LanguagERepresentation (KEPLER), which can not only better integrate factual knowledge into PLMs but also produce effective text-enhanced KE with the strong PLMs. In KEPLER, we encode textual entity descriptions with a PLM as their embeddings, and then jointly optimize the KE and language modeling objectives. Experimental results show that KEPLER achieves state-of-the-art performances on various NLP tasks, and also works remarkably well as an inductive KE model on KG link prediction. Furthermore, for pre-training and evaluating KEPLER, we construct Wikidata5M1 , a large-scale KG dataset with aligned entity descriptions, and benchmark state-of-the-art KE methods on it. It shall serve as a new KE benchmark and facilitate the research on large KG, inductive KE, and KG with text. The source code can be obtained from https://github.com/THU-KEG/KEPLER.

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Pre-trained models: Past, present and future

Han

Zhang

Ding

et al. 2021

AI Open

521

165

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Zhengyan Zhang

Graph neural networks: A review of methods and applications

ERNIE: Enhanced Language Representation with Informative Entities

Graph Neural Networks: A Review of Methods and Applications

KEPLER: A Unified Model for Knowledge Embedding and Pre-trained Language Representation

Pre-trained models: Past, present and future

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