Jijnasa Nayak scite author profile

Jijnasa Nayak

3Publications

1Citation Statement Received

65Citation Statements Given

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University of Massachusetts Amherst

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Detecting Data Leakage from Hard Copy Documents

Nayak¹,

Singh²,

Chhabra³

et al. 2018

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Document fraud has evolved to become a significant threat to individuals and organizations. Data leakage from hard copy documents is a common type of fraud. This chapter proposes a methodology for analyzing printed and photocopied versions of confidential documents to identify the source of a leak. The methodology incorporates a novel font pixel manipulation algorithm that embeds data in the pixels of certain characters of confidential documents in a manner that is imperceptible to the human eye. The embedded data is extracted from a leaked printed or photocopied document to identify the specific document that served as the source. The embedded data is robust in that it can withstand errors introduced by printing, scanning and photocopying documents. Experimental results demonstrate the efficiency, robustness and security of the methodology.

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Untitled

Chen

Chang

Chen

et al. 2019

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In relation extraction for knowledge-based question answering, searching from one entity to another entity via a single relation is called "one hop". In related work, an exhaustive search from all one-hop relations, two-hop relations, and so on to the max-hop relations in the knowledge graph is necessary but expensive. Therefore, the number of hops is generally restricted to two or three. In this paper, we propose UHop, an unrestricted-hop framework which relaxes this restriction by use of a transition-based search framework to replace the relation-chain-based search one. We conduct experiments on conventional 1-and 2hop questions as well as lengthy questions, including datasets such as WebQSP, PathQuestion, and Grid World. Results show that the proposed framework enables the ability to halt, works well with state-of-the-art models, achieves competitive performance without exhaustive searches, and opens the performance gap for long relation paths.

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UHop: An Unrestricted-Hop Relation Extraction Framework for Knowledge-Based Question Answering

Chen¹,

Chang²,

Chen³

et al. 2019

Preprint

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Jijnasa Nayak

Detecting Data Leakage from Hard Copy Documents

Untitled

UHop: An Unrestricted-Hop Relation Extraction Framework for Knowledge-Based Question Answering

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