Xiaoxiao Guo scite author profile

Knowledge graphs (KGs) are the key components of various natural language processing applications. To further expand KGs' coverage, previous studies on knowledge graph completion usually require a large number of training instances for each relation. However, we observe that long-tail relations are actually more common in KGs and those newly added relations often do not have many known triples for training. In this work, we aim at predicting new facts under a challenging setting where only one training instance is available. We propose a one-shot relational learning framework, which utilizes the knowledge extracted by embedding models and learns a matching metric by considering both the learned embeddings and one-hop graph structures. Empirically, our model yields considerable performance improvements over existing embedding models, and also eliminates the need of retraining the embedding models when dealing with newly added relations. 1

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Fashion IQ: A New Dataset Towards Retrieving Images by Natural Language Feedback

Gao²,

Guo

et al. 2021

130

116

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Diverse Few-Shot Text Classification with Multiple Metrics

Yu¹,

Guo²,

Yi³

et al. 2018

204

103

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We study few-shot learning in natural language domains. Compared to many existing works that apply either metric-based or optimization-based meta-learning to image domain with low inter-task variance, we consider a more realistic setting, where tasks are diverse. However, it imposes tremendous difficulties to existing state-of-the-art metric-based algorithms since a single metric is insufficient to capture complex task variations in natural language domain. To alleviate the problem, we propose an adaptive metric learning approach that automatically determines the best weighted combination from a set of metrics obtained from meta-training tasks for a newly seen few-shot task. Extensive quantitative evaluations on real-world sentiment analysis and dialog intent classification datasets demonstrate that the proposed method performs favorably against state-of-the-art few shot learning algorithms in terms of predictive accuracy. We make our code and data available for further study.

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Sentence Embedding Alignment for Lifelong Relation Extraction

Wang¹,

Xiong²,

Yu³

et al. 2019

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Conventional approaches to relation extraction usually require a fixed set of pre-defined relations. Such requirement is hard to meet in many real applications, especially when new data and relations are emerging incessantly and it is computationally expensive to store all data and re-train the whole model every time new data and relations come in. We formulate such a challenging problem as lifelong relation extraction and investigate memoryefficient incremental learning methods without catastrophically forgetting knowledge learned from previous tasks. We first investigate a modified version of the stochastic gradient methods with a replay memory, which surprisingly outperforms recent state-of-the-art lifelong learning methods. We further propose to improve this approach to alleviate the forgetting problem by anchoring the sentence embedding space. Specifically, we utilize an explicit alignment model to mitigate the sentence embedding distortion of the learned model when training on new data and new relations. Experiment results on multiple benchmarks show that our proposed method significantly outperforms the state-of-the-art lifelong learning approaches. * Co-mentoring Code and dataset can be found in this repository: https://github.com/hongwang600/Lifelong_ Relation_Detection

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Xiaoxiao Guo

Convolutional Neural Networks for Steady Flow Approximation

One-Shot Relational Learning for Knowledge Graphs

Fashion IQ: A New Dataset Towards Retrieving Images by Natural Language Feedback

Diverse Few-Shot Text Classification with Multiple Metrics

Sentence Embedding Alignment for Lifelong Relation Extraction

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