Shuohang Wang scite author profile

Natural language inference (NLI) is a fundamentally important task in natural language processing that has many applications. The recently released Stanford Natural Language Inference (SNLI) corpus has made it possible to develop and evaluate learning-centered methods such as deep neural networks for natural language inference (NLI). In this paper, we propose a special long short-term memory (LSTM) architecture for NLI. Our model builds on top of a recently proposed neural attention model for NLI but is based on a significantly different idea. Instead of deriving sentence embeddings for the premise and the hypothesis to be used for classification, our solution uses a match-LSTM to perform wordby-word matching of the hypothesis with the premise. This LSTM is able to place more emphasis on important word-level matching results. In particular, we observe that this LSTM remembers important mismatches that are critical for predicting the contradiction or the neutral relationship label. On the SNLI corpus, our model achieves an accuracy of 86.1%, outperforming the state of the art. A more recent work by Rocktäschel et al. (2016) improved the performance by applying a neural attention model. While their basic architecture is still based on sentence embeddings for the premise and the hypothesis, a key difference is that the embedding of the premise takes into consideration the alignment between the premise and the hypothesis. This so-called attention-weighted representation of the premise was shown to help push the accuracy to

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Hierarchical Graph Network for Multi-hop Question Answering

Fang¹,

Sun²,

Gan³

et al. 2020

115

120

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In this paper, we present Hierarchical Graph Network (HGN) for multi-hop question answering. To aggregate clues from scattered texts across multiple paragraphs, a hierarchical graph is created by constructing nodes on different levels of granularity (questions, paragraphs, sentences, entities), the representations of which are initialized with pre-trained contextual encoders. Given this hierarchical graph, the initial node representations are updated through graph propagation, and multihop reasoning is performed via traversing through the graph edges for each subsequent sub-task (e.g., paragraph selection, supporting facts extraction, answer prediction). By weaving heterogeneous nodes into an integral unified graph, this hierarchical differentiation of node granularity enables HGN to support different question answering sub-tasks simultaneously. Experiments on the HotpotQA benchmark demonstrate that the proposed model achieves new state of the art, outperforming existing multi-hop QA approaches. 1

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A Co-Matching Model for Multi-choice Reading Comprehension

Wang¹,

Yu²,

Jiang³

et al. 2018

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Simple and Effective Curriculum Pointer-Generator Networks for Reading Comprehension over Long Narratives

Tay

Wang

Luu

et al. 2019

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This paper tackles the problem of reading comprehension over long narratives where documents easily span over thousands of tokens. We propose a curriculum learning (CL) based Pointer-Generator framework for reading/sampling over large documents, enabling diverse training of the neural model based on the notion of alternating contextual difficulty. This can be interpreted as a form of domain randomization and/or generative pretraining during training. To this end, the usage of the Pointer-Generator softens the requirement of having the answer within the context, enabling us to construct diverse training samples for learning. Additionally, we propose a new Introspective Alignment Layer (IAL), which reasons over decomposed alignments using block-based self-attention. We evaluate our proposed method on the NarrativeQA reading comprehension benchmark, achieving state-of-the-art performance, improving existing baselines by 51% relative improvement on BLEU-4 and 17% relative improvement on Rouge-L. Extensive ablations confirm the effectiveness of our proposed IAL and CL components.

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An Empirical Study of Training End-to-End Vision-and-Language Transformers

Dou

Gan

et al. 2022

187

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Shuohang Wang

Learning Natural Language Inference with LSTM

Hierarchical Graph Network for Multi-hop Question Answering

A Co-Matching Model for Multi-choice Reading Comprehension

Simple and Effective Curriculum Pointer-Generator Networks for Reading Comprehension over Long Narratives

An Empirical Study of Training End-to-End Vision-and-Language Transformers

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