Raghuram Vadapalli
2020
Syntax-Guided Controlled Generation of Paraphrases
Ashutosh Kumar
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Kabir Ahuja
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Raghuram Vadapalli
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Partha Talukdar
Transactions of the Association for Computational Linguistics, Volume 8
Given a sentence (e.g., “I like mangoes”) and a constraint (e.g., sentiment flip), the goal of controlled text generation is to produce a sentence that adapts the input sentence to meet the requirements of the constraint (e.g., “I hate mangoes”). Going beyond such simple constraints, recent work has started exploring the incorporation of complex syntactic-guidance as constraints in the task of controlled paraphrase generation. In these methods, syntactic-guidance is sourced from a separate exemplar sentence. However, this prior work has only utilized limited syntactic information available in the parse tree of the exemplar sentence. We address this limitation in the paper and propose Syntax Guided Controlled Paraphraser (SGCP), an end-to-end framework for syntactic paraphrase generation. We find that Sgcp can generate syntax-conforming sentences while not compromising on relevance. We perform extensive automated and human evaluations over multiple real-world English language datasets to demonstrate the efficacy of Sgcp over state-of-the-art baselines. To drive future research, we have made Sgcp’s source code available.1
2018
When science journalism meets artificial intelligence : An interactive demonstration
Raghuram Vadapalli
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Bakhtiyar Syed
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Nishant Prabhu
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Balaji Vasan Srinivasan
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Vasudeva Varma
Proceedings of the 2018 Conference on Empirical Methods in Natural Language Processing: System Demonstrations
We present an online interactive tool that generates titles of blog titles and thus take the first step toward automating science journalism. Science journalism aims to transform jargon-laden scientific articles into a form that the common reader can comprehend while ensuring that the underlying meaning of the article is retained. In this work, we present a tool, which, given the title and abstract of a research paper will generate a blog title by mimicking a human science journalist. The tool makes use of a model trained on a corpus of 87,328 pairs of research papers and their corresponding blogs, built from two science news aggregators. The architecture of the model is a two-stage mechanism which generates blog titles. Evaluation using standard metrics indicate the viability of the proposed system.
2017
SSAS: Semantic Similarity for Abstractive Summarization
Raghuram Vadapalli
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Litton J Kurisinkel
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Manish Gupta
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Vasudeva Varma
Proceedings of the Eighth International Joint Conference on Natural Language Processing (Volume 2: Short Papers)
Ideally a metric evaluating an abstract system summary should represent the extent to which the system-generated summary approximates the semantic inference conceived by the reader using a human-written reference summary. Most of the previous approaches relied upon word or syntactic sub-sequence overlap to evaluate system-generated summaries. Such metrics cannot evaluate the summary at semantic inference level. Through this work we introduce the metric of Semantic Similarity for Abstractive Summarization (SSAS), which leverages natural language inference and paraphrasing techniques to frame a novel approach to evaluate system summaries at semantic inference level. SSAS is based upon a weighted composition of quantities representing the level of agreement, contradiction, independence, paraphrasing, and optionally ROUGE score between a system-generated and a human-written summary.
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Co-authors
- Vasudeva Varma 2
- Litton J Kurisinkel 1
- Manish Gupta 1
- Bakhtiyar Syed 1
- Nishant Prabhu 1
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