Publikationen

The Moving Target of Visualization Software for an Increasingly Complex World

The Moving Target of Visualization Software for an Increasingly Complex World

Guido Reina University of Stuttgart Hank Childs University of Oregon Krešimir Matković VRVis Research Center Katja Bühler VRVis Research Center Manuela Waldner TU Wien David Pugmire US Department of Energy science Barbora Kozlíková Masaryk University (Brno) Timo Ropinski Ulm University Patric Ljung Linköping University Takayuki Itoh Ochanomizu University (Tokyo) Meister Eduard Gröller TU Wien Michael Krone University of Tübingen

Computers & Graphics, 2020

Abstract

Visualization has evolved into a mature scientific field and it has also become widely accepted as a standard approach in diverse fields, including physics, life sciences, and business intelligence. However, despite its successful development, there are still many open research questions that require customized implementations in order to explore and establish concepts, and to perform experiments and take measurements. Many methods and tools have been developed and published but most are stand-alone prototypes and have not reached a mature state that can be used in a reliable manner by collaborating domain scientists or a wider audience. In this study, we discuss the challenges, solutions, and open research questions that affect the development of sophisticated, relevant, and novel scientific visualization solutions with minimum overheads. We summarize and discuss the results of a recent National Institute of Informatics Shonan seminar on these topics.

Bibtex

content_copy
@article{reina2021moving,
	title={The Moving Target of Visualization Software for an Increasingly Complex World},
	author={Reina, Guido and Childs, Hank and Matkovi{\'c}, Kre{\vs}imir and B{\"a}hler, Katja and Waldner, Manuela and Pugmire, David and Kozl{\'i}kov{\'a}, Barbora and Ropinski, Timo and Ljung, Patric and Itoh, Takayuki and Gr{\"o}ller, Meister Eduard and Krone, Michael},
	year={2020},
	month={4},
	journal={Computers & Graphics},
	volume={87},
	pages={12-29},
	issue={1},
	doi={10.1016/j.cag.2020.01.005},
}