Sairam Gurajada scite author profile

Entity resolution (ER) is the task of identifying different representations of the same real-world entities across databases. It is a key step for knowledge base creation and text mining. Recent adaptation of deep learning methods for ER mitigates the need for dataset-specific feature engineering by constructing distributed representations of entity records. While these methods achieve stateof-the-art performance over benchmark data, they require large amounts of labeled data, which are typically unavailable in realistic ER applications. In this paper, we develop a deep learning-based method that targets lowresource settings for ER through a novel combination of transfer learning and active learning. We design an architecture that allows us to learn a transferable model from a highresource setting to a low-resource one. To further adapt to the target dataset, we incorporate active learning that carefully selects a few informative examples to fine-tune the transferred model. Empirical evaluation demonstrates that our method achieves comparable, if not better, performance compared to state-of-the-art learning-based methods while using an order of magnitude fewer labels. 1 17k labels were used for the DBLP-Scholar scenario.

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Leveraging Abstract Meaning Representation for Knowledge Base Question Answering

Kapanipathi

Abdelaziz

Ravishankar

et al. 2021

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Knowledge base question answering (KBQA) is an important task in Natural Language Processing. Existing approaches face significant challenges including complex question understanding, necessity for reasoning, and lack of large end-to-end training datasets. In this work, we propose Neuro-Symbolic Question Answering (NSQA), a modular KBQA system, that leverages (1) Abstract Meaning Representation (AMR) parses for task-independent question understanding; (2) a simple yet effective graph transformation approach to convert AMR parses into candidate logical queries that are aligned to the KB; (3) a pipeline-based approach which integrates multiple, reusable modules that are trained specifically for their individual tasks (semantic parser, entity and relationship linkers, and neuro-symbolic reasoner) and do not require end-to-end training data. NSQA achieves state-of-the-art performance on two prominent KBQA datasets based on DBpedia (QALD-9 and LC-QuAD 1.0). Furthermore, our analysis emphasizes that AMR is a powerful tool for KBQA systems.

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Low-resource Deep Entity Resolution with Transfer and Active Learning

Kasai

Qian²,

Gurajada³

et al. 2019

Preprint

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Overview of INEX 2013

Bellot¹,

Doucet²,

Geva³

et al. 2013

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Report on INEX 2013

Bellot¹,

Doucet²,

Geva³

et al. 2013

SIGIR Forum

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International audienceINEX investigates focused retrieval from structured documents by providing large test collections of structured documents, uniform evaluation measures, and a forum for organizations to compare their results. This paper reports on the INEX 2013 evaluation campaign, which consisted of four activities addressing three themes: searching professional and user generated data (Social Book Search track); searching structured or semantic data (Linked Data track); and focused retrieval (Snippet Retrieval and Tweet Contextualization tracks). INEX 2013 was an exciting year for INEX in which we consolidated the collaboration with (other activities in) CLEF and for the second time ran our workshop as part of the CLEF labs in order to facilitate knowledge transfer between the evaluation forums. This paper gives an overview of all the INEX 2013 tracks, their aims and task, the built test-collections, and gives an initial analysis of the results

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Sairam Gurajada

Low-resource Deep Entity Resolution with Transfer and Active Learning

Leveraging Abstract Meaning Representation for Knowledge Base Question Answering

Low-resource Deep Entity Resolution with Transfer and Active Learning

Overview of INEX 2013

Report on INEX 2013

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