Sicheng Yu scite author profile

While diverse question answering (QA) datasets have been proposed and contributed significantly to the development of deep learning models for QA tasks, the existing datasets fall short in two aspects. First, we lack QA datasets covering complex questions that involve answers as well as the reasoning processes to get the answers. As a result, the state-of-the-art QA research on numerical reasoning still focuses on simple calculations and does not provide the mathematical expressions or evidences justifying the answers. Second, the QA community has contributed much effort to improving the interpretability of QA models. However, these models fail to explicitly show the reasoning process, such as the evidence order for reasoning and the interactions between different pieces of evidence. To address the above shortcomings, we introduce NOAHQA, a conversational and bilingual QA dataset with questions requiring numerical reasoning with compound mathematical expressions. With NOAHQA, we develop an interpretable reasoning graph as well as the appropriate evaluation metric to measure the answer quality. We evaluate the state-of-the-art QA models trained using existing QA datasets on NOAHQA and show that the best among them can only achieve 55.5 exact match scores, while the human performance is 89.7. We also present a new QA model for generating a reasoning graph where the reasoning graph metric still has a large gap compared with that of humans, e.g., 28 scores.

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COSY: COunterfactual SYntax for Cross-Lingual Understanding

Yu¹,

Zhang²,

Niu³

et al. 2021

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Pre-trained multilingual language models, e.g., multilingual-BERT, are widely used in crosslingual tasks, yielding the state-of-the-art performance. However, such models suffer from a large performance gap between source and target languages, especially in the zero-shot setting, where the models are fine-tuned only on English but tested on other languages for the same task. We tackle this issue by incorporating language-agnostic information, specifically, universal syntax such as dependency relations and POS tags, into language models, based on the observation that universal syntax is transferable across different languages. Our approach, named COunterfactual SYntax (COSY), includes the design of SYntaxaware networks as well as a COunterfactual training method to implicitly force the networks to learn not only the semantics but also the syntax. To evaluate COSY, we conduct cross-lingual experiments on natural language inference and question answering using mBERT and XLM-R as network backbones. Our results show that COSY achieves the stateof-the-art performance for both tasks, without using auxiliary dataset. 1 "I love apples ."Pre-trained Language Model

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Context Modeling with Evidence Filter for Multiple Choice Question Answering

Zhang

Wei

et al. 2022

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Ensemble Based Error Minimization Reduction for ELM

Yang

Chen

et al. 2018

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Sicheng Yu

Employee profiling via aspect-based sentiment and network for insider threats detection

NOAHQA: Numerical Reasoning with Interpretable Graph Question Answering Dataset

COSY: COunterfactual SYntax for Cross-Lingual Understanding

Context Modeling with Evidence Filter for Multiple Choice Question Answering

Ensemble Based Error Minimization Reduction for ELM

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