New visualization tools to support domain scientists to understand, analyze, and illustrate trajectories of dynamical systems are available, but they often stop at 4D . A recent approach by Bartolovic et al. investigates also higher-D spaces ; however, drilling down to lower spaces and understanding the local behavior of the dynamical systems is not possible.
We are interested in developing novel visual analytics techniques, which will support the exploration and analysis of high-dimensional dynamical systems. This approach should enable the easy global and local view on the behavior of these dynamical systems.
- Interest and knowledge in visualization and visual analytics.
- Good programming skills.
- Creativity and enthusiasm.
To be determined depending on the background of the student.
 Amirkhanov, Aleksandr, Ilona Kosiuk, Peter Szmolyan, Artem Amirkhanov, Gabriel Mistelbauer, M. Eduard Gröller, and Renata G. Raidou. "ManyLands: A Journey Across 4D Phase Space of Trajectories." In Computer Graphics Forum, vol. 38, no. 7, pp. 191-202. 2019.
 Bartolovic Nemanja, Markus Gross, and Tobias Günther. "Phase Space Projection of Dynamical Systems." In Computer Graphics Forum, vol. 39, no. 3, pp. 253-264. 2020.