ArtVis: Dynamic Network Perspectives on Digital Art History
ArtVis: Dynamic Network Perspectives on Digital Art History
Disciplines
Computer Sciences (80%); Arts (20%)
Keywords
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Visual Analytics,
Dynamic Network,
Time,
Space,
Digital Art History,
Exhibitions
In order to better understand the history of art a major challenge of Digital Art History (DAH) is to understand how the components of the art system (persons, objects, places, institutions, and events) interacted with each other and how these interactions vary over time. The aim of our project is to model such complex relations through the use of Network Visualization (NetVis). Networks have a wide range of application in many domains, including social sciences, software engineering, and economics. NetVis has proven to be a successful tool to model data and phenomena for tasks in these domains, yet most modern solutions do not account for the complex aspects of the data and their dynamic. Real-world data is rarely static and for most application domains and problems it is essential to model and visualize the evolution and change of attributes and characteristics in the network, its actors, their relationships, and movement over time.
- Universität Wien - 30%
- Technische Universität Wien - 70%
- Raphael Rosenberg, Universität Wien , associated research partner
- Stefan Jänicke, University of Southern Denmark at Odense - Denmark
- Fabian Beck, Otto-Friedrich Universität Bamberg - Germany
Research Output
- 82 Citations
- 13 Publications
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2025
Title NODKANT: Exploring Constructive Network Physicalization DOI 10.1111/cgf.70140 Type Journal Article Author Pahr D Journal Computer Graphics Forum Link Publication -
2025
Title Wiggle! Wiggle! Wiggle! Visualizing uncertainty in node attributes in straight-line node-link diagrams using animated wiggliness DOI 10.1016/j.cag.2025.104290 Type Journal Article Author Ehlers H Journal Computers & Graphics Pages 104290 Link Publication -
2023
Title Are We There Yet? A Roadmap of Network Visualization from Surveys to Task Taxonomies DOI 10.1111/cgf.14794 Type Journal Article Author Filipov V Journal Computer Graphics Forum Link Publication -
2023
Title TimeLighting: Guidance-Enhanced Exploration of 2D Projections of Temporal Graphs DOI 10.1007/978-3-031-49272-3_16 Type Book Chapter Author Filipov V Publisher Springer Nature Pages 231-245 Link Publication -
2023
Title TimeLighting: Guided Exploration of 2D Temporal Network Projections DOI 10.48550/arxiv.2308.12628 Type Preprint Author Filipov V -
2023
Title $n$ Walks in the Fictional Woods DOI 10.48550/arxiv.2308.06266 Type Preprint Author Schetinger V -
2023
Title Doom or Deliciousness: Challenges and Opportunities for Visualization in the Age of Generative Models DOI 10.1111/cgf.14841 Type Journal Article Author Schetinger V Journal Computer Graphics Forum Pages 423-435 Link Publication -
2023
Title On Time and Space: An Experimental Study on Graph Structural and Temporal Encodings DOI 10.1007/978-3-031-22203-0_20 Type Book Chapter Author Filipov V Publisher Springer Nature Pages 271-288 -
2023
Title Visual Analytics for Understanding Draco's Knowledge Base DOI 10.1109/tvcg.2023.3326912 Type Journal Article Author Schmidt J Journal IEEE Transactions on Visualization and Computer Graphics Pages 392-402 -
2024
Title On Network Structural and Temporal Encodings: A Space and Time Odyssey DOI 10.1109/tvcg.2023.3310019 Type Journal Article Author Filipov V Journal IEEE Transactions on Visualization and Computer Graphics Pages 5847-5860 Link Publication -
2024
Title TimeLighting: Guided Exploration of 2D Temporal Network Projections DOI 10.1109/tvcg.2024.3514858 Type Journal Article Author Filipov V Journal IEEE Transactions on Visualization and Computer Graphics Pages 1932-1944 Link Publication -
2022
Title I Learn to Diffuse, or Data Alchemy 101: a Mnemonic Manifesto DOI 10.48550/arxiv.2208.03998 Type Preprint Author Schetinger V -
2022
Title On Time and Space: An Experimental Study on Graph Structural and Temporal Encodings DOI 10.48550/arxiv.2208.13716 Type Preprint Author Filipov V