2021
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EMBEDDIA Tools, Datasets and Challenges: Resources and Hackathon Contributions
Senja Pollak
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Marko Robnik-Šikonja
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Matthew Purver
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Michele Boggia
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Ravi Shekhar
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Marko Pranjić
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Salla Salmela
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Ivar Krustok
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Tarmo Paju
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Carl-Gustav Linden
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Leo Leppänen
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Elaine Zosa
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Matej Ulčar
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Linda Freienthal
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Silver Traat
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Luis Adrián Cabrera-Diego
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Matej Martinc
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Nada Lavrač
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Blaž Škrlj
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Martin Žnidaršič
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Andraž Pelicon
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Boshko Koloski
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Vid Podpečan
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Janez Kranjc
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Shane Sheehan
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Emanuela Boros
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Jose G. Moreno
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Antoine Doucet
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Hannu Toivonen
Proceedings of the EACL Hackashop on News Media Content Analysis and Automated Report Generation
This paper presents tools and data sources collected and released by the EMBEDDIA project, supported by the European Union’s Horizon 2020 research and innovation program. The collected resources were offered to participants of a hackathon organized as part of the EACL Hackashop on News Media Content Analysis and Automated Report Generation in February 2021. The hackathon had six participating teams who addressed different challenges, either from the list of proposed challenges or their own news-industry-related tasks. This paper goes beyond the scope of the hackathon, as it brings together in a coherent and compact form most of the resources developed, collected and released by the EMBEDDIA project. Moreover, it constitutes a handy source for news media industry and researchers in the fields of Natural Language Processing and Social Science.
2020
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The NetViz terminology visualization tool and the use cases in karstology domain modeling
Senja Pollak
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Vid Podpečan
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Dragana Miljkovic
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Uroš Stepišnik
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Špela Vintar
Proceedings of the 6th International Workshop on Computational Terminology
We present the NetViz terminology visualization tool and apply it to the domain modeling of karstology, a subfield of geography studying karst phenomena. The developed tool allows for high-performance online network visualization where the user can upload the terminological data in a simple CSV format, define the nodes (terms, categories), edges (relations) and their properties (by assigning different node colors), and then edit and interactively explore domain knowledge in the form of a network. We showcase the usefulness of the tool on examples from the karstology domain, where in the first use case we visualize the domain knowledge as represented in a manually annotated corpus of domain definitions, while in the second use case we show the power of visualization for domain understanding by visualizing automatically extracted knowledge in the form of triplets extracted from the karstology domain corpus. The application is entirely web-based without any need for downloading or special configuration. The source code of the web application is also available under the permissive MIT license, allowing future extensions for developing new terminological applications.