The IEEE SciVis 2019 Contest targets the visual analysis of structure formation in the cosmic evolution of the universe from when the universe was five million years old up to now. In our submission, we analyze high-dimensional data to get an overview, then investigate the impact of Active Galactic Nuclei (AGNs) using various visualization techniques, for instance, an adapted filament filtering method for detailed analysis and particle flow in the vicinity of filaments. Based on feedback from domain scientists on these initial visualizations, we also analyzed X-ray emissions and star formation areas. The conversion of star-forming gas to stars and the resulting increasing molecular weight of the particles could be observed.
%0 Conference Paper
%1 schatz2019visual
%A Schatz, Karsten
%A Müller, Christoph
%A Gralka, Patrick
%A Heinemann, Moritz
%A Straub, Alexander
%A Schulz, Christoph
%A Braun, Matthias
%A Rau, Tobias
%A Becher, Michael
%A Diehl, Patrick
%A Marcello, Dominic
%A Frank, Juhan
%A Müller, Thomas
%A Frey, Steffen
%A Reina, Guido
%A Weiskopf, Daniel
%A Ertl, Thomas
%B Proceedings of the IEEE Scientific Visualization Conference (SciVis)
%D 2019
%K 2019 A01 a02 from:leonkokkoliadis sfbtrr161 visus visus:ertl visus:freysn visus:schulzch visus:weiskopf
%P 33-41
%R 10.1109/scivis47405.2019.8968855
%T Visual Analysis of Structure Formation in Cosmic Evolution
%U https://ieeexplore.ieee.org/abstract/document/8968855
%X The IEEE SciVis 2019 Contest targets the visual analysis of structure formation in the cosmic evolution of the universe from when the universe was five million years old up to now. In our submission, we analyze high-dimensional data to get an overview, then investigate the impact of Active Galactic Nuclei (AGNs) using various visualization techniques, for instance, an adapted filament filtering method for detailed analysis and particle flow in the vicinity of filaments. Based on feedback from domain scientists on these initial visualizations, we also analyzed X-ray emissions and star formation areas. The conversion of star-forming gas to stars and the resulting increasing molecular weight of the particles could be observed.
@inproceedings{schatz2019visual,
abstract = {The IEEE SciVis 2019 Contest targets the visual analysis of structure formation in the cosmic evolution of the universe from when the universe was five million years old up to now. In our submission, we analyze high-dimensional data to get an overview, then investigate the impact of Active Galactic Nuclei (AGNs) using various visualization techniques, for instance, an adapted filament filtering method for detailed analysis and particle flow in the vicinity of filaments. Based on feedback from domain scientists on these initial visualizations, we also analyzed X-ray emissions and star formation areas. The conversion of star-forming gas to stars and the resulting increasing molecular weight of the particles could be observed.},
added-at = {2020-05-22T18:42:27.000+0200},
author = {Schatz, Karsten and Müller, Christoph and Gralka, Patrick and Heinemann, Moritz and Straub, Alexander and Schulz, Christoph and Braun, Matthias and Rau, Tobias and Becher, Michael and Diehl, Patrick and Marcello, Dominic and Frank, Juhan and Müller, Thomas and Frey, Steffen and Reina, Guido and Weiskopf, Daniel and Ertl, Thomas},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/253e01a05040c57033ae2b7fa6323c231/sfbtrr161},
booktitle = {Proceedings of the IEEE Scientific Visualization Conference (SciVis)},
doi = {10.1109/scivis47405.2019.8968855},
interhash = {7adf8eebb62be05f87cce6c6a54b9405},
intrahash = {53e01a05040c57033ae2b7fa6323c231},
keywords = {2019 A01 a02 from:leonkokkoliadis sfbtrr161 visus visus:ertl visus:freysn visus:schulzch visus:weiskopf},
pages = {33-41},
timestamp = {2021-06-28T07:00:38.000+0200},
title = {Visual Analysis of Structure Formation in Cosmic Evolution},
url = {https://ieeexplore.ieee.org/abstract/document/8968855},
year = 2019
}
