3,588 research outputs found
Neural Cross-Lingual Entity Linking
A major challenge in Entity Linking (EL) is making effective use of
contextual information to disambiguate mentions to Wikipedia that might refer
to different entities in different contexts. The problem exacerbates with
cross-lingual EL which involves linking mentions written in non-English
documents to entries in the English Wikipedia: to compare textual clues across
languages we need to compute similarity between textual fragments across
languages. In this paper, we propose a neural EL model that trains fine-grained
similarities and dissimilarities between the query and candidate document from
multiple perspectives, combined with convolution and tensor networks. Further,
we show that this English-trained system can be applied, in zero-shot learning,
to other languages by making surprisingly effective use of multi-lingual
embeddings. The proposed system has strong empirical evidence yielding
state-of-the-art results in English as well as cross-lingual: Spanish and
Chinese TAC 2015 datasets.Comment: Association for the Advancement of Artificial Intelligence (AAAI),
201
Zero-shot Neural Transfer for Cross-lingual Entity Linking
Cross-lingual entity linking maps an entity mention in a source language to
its corresponding entry in a structured knowledge base that is in a different
(target) language. While previous work relies heavily on bilingual lexical
resources to bridge the gap between the source and the target languages, these
resources are scarce or unavailable for many low-resource languages. To address
this problem, we investigate zero-shot cross-lingual entity linking, in which
we assume no bilingual lexical resources are available in the source
low-resource language. Specifically, we propose pivot-based entity linking,
which leverages information from a high-resource "pivot" language to train
character-level neural entity linking models that are transferred to the source
low-resource language in a zero-shot manner. With experiments on 9 low-resource
languages and transfer through a total of 54 languages, we show that our
proposed pivot-based framework improves entity linking accuracy 17% (absolute)
on average over the baseline systems, for the zero-shot scenario. Further, we
also investigate the use of language-universal phonological representations
which improves average accuracy (absolute) by 36% when transferring between
languages that use different scripts.Comment: To appear in AAAI 201
Neural Collective Entity Linking
Entity Linking aims to link entity mentions in texts to knowledge bases, and
neural models have achieved recent success in this task. However, most existing
methods rely on local contexts to resolve entities independently, which may
usually fail due to the data sparsity of local information. To address this
issue, we propose a novel neural model for collective entity linking, named as
NCEL. NCEL applies Graph Convolutional Network to integrate both local
contextual features and global coherence information for entity linking. To
improve the computation efficiency, we approximately perform graph convolution
on a subgraph of adjacent entity mentions instead of those in the entire text.
We further introduce an attention scheme to improve the robustness of NCEL to
data noise and train the model on Wikipedia hyperlinks to avoid overfitting and
domain bias. In experiments, we evaluate NCEL on five publicly available
datasets to verify the linking performance as well as generalization ability.
We also conduct an extensive analysis of time complexity, the impact of key
modules, and qualitative results, which demonstrate the effectiveness and
efficiency of our proposed method.Comment: 12 pages, 3 figures, COLING201
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