Publications

Sita A. Vriend, Sandeep Vidyapu, Kun-Ting Chen, and Daniel Weiskopf. Which Experimental Design is Better Suited for VQA Tasks? Eye Tracking Study on Cognitive Load, Performance, and Gaze Allocations. Proceedings of the Symposium on Eye Tracking and Visualization (ETVIS), June 2024. [PUMA: a01 visus:vidyapsp visus:weiskopf sfbtrr161 2024 visus:chenkg visus:vriendsa visus] URL

Sita A. Vriend, Sandeep Vidyapu, Kun-Ting Chen, and Daniel Weiskopf. Which Experimental Design is Better Suited for VQA Tasks? Eye Tracking Study on Cognitive Load, Performance, and Gaze Allocations. Proceedings of the Symposium on Eye Tracking and Visualization (ETVIS), June 2024. [PUMA: 2024 a01 sfbtrr161 visus visus:chenkg visus:vidyapsp visus:vriendsa visus:weiskopf] URL

Sita A. Vriend, Sandeep Vidyapu, Kun-Ting Chen, and Daniel Weiskopf. Which Experimental Design is Better Suited for VQA Tasks? Eye Tracking Study on Cognitive Load, Performance, and Gaze Allocations. Proceedings of the Symposium on Eye Tracking and Visualization (ETVIS), June 2024. [PUMA: a01 sfbtrr161 2024] URL

Tim Krake, Daniel Klötzl, David Hägele, and Daniel Weiskopf. Uncertainty-Aware Seasonal-Trend Decomposition Based on Loess. IEEE Transactions on Visualization and Computer Graphics, 1-16, 2024. [PUMA: 2024 a01 b01 sfbtrr161] URL

Tim Krake, Daniel Klötzl, David Hägele, and Daniel Weiskopf. Uncertainty-Aware Seasonal-Trend Decomposition Based on Loess. IEEE Transactions on Visualization and Computer Graphics, 1-16, 2024. [PUMA: a01 b01 sfbtrr161 2024] URL

Y. Xue, P. Paetzold, R. Kehlbeck, B. Chen, K. Kwan, Y. Wang, and O. Deussen. Reducing Ambiguities in Line-Based Density Plots by Image-Space Colorization. IEEE Transactions on Visualization & Computer Graphics, (30)01:825-835, IEEE Computer Society, Los Alamitos, CA, USA, January 2024. [PUMA: 2024 a01 sfbtrr161] URL

Y. Xue, P. Paetzold, R. Kehlbeck, B. Chen, K. Kwan, Y. Wang, and O. Deussen. Reducing Ambiguities in Line-Based Density Plots by Image-Space Colorization. IEEE Transactions on Visualization & Computer Graphics, (30)01:825-835, IEEE Computer Society, Los Alamitos, CA, USA, January 2024. [PUMA: a01 sfbtrr161 2024] URL

Mingliang Xue, Zhi Wang, Fahai Zhong, Yong Wang, Mingliang Xu, Oliver Deussen, and Yunhai Wang. Taurus: Towards a Unified Force Representation and Universal Solver for Graph Layout. IEEE Transactions on Visualization and Computer Graphics, (29)1:886-895, 2023. [PUMA: a01 sfbtrr161] URL

Mingliang Xue, Zhi Wang, Fahai Zhong, Yong Wang, Mingliang Xu, Oliver Deussen, and Yunhai Wang. Taurus: Towards a Unified Force Representation and Universal Solver for Graph Layout. IEEE Transactions on Visualization and Computer Graphics, (29)1:886-895, 2023. [PUMA: 2023 a01 sfbtrr161] URL

Patrick Paetzold, Rebecca Kehlbeck, Hendrik Strobelt, Yumeng Xue, Sabine Storandt, and Oliver Deussen. RectEuler: Visualizing Intersecting Sets using Rectangles. Computer Graphics Forum, (42)3:87-98, 2023. [PUMA: 2023 a01 b06 sfbtrr161] URL

Patrick Paetzold, Rebecca Kehlbeck, Hendrik Strobelt, Yumeng Xue, Sabine Storandt, and Oliver Deussen. RectEuler: Visualizing Intersecting Sets using Rectangles. Computer Graphics Forum, (42)3:87-98, 2023. [PUMA: a01 sfbtrr161 from:christinawarren b06 2023] URL

Nils Rodrigues, Christoph Schulz, Soren Doring, Daniel Baumgartner, Tim Krake, and Daniel Weiskopf. Relaxed Dot Plots: Faithful Visualization of Samples and Their Distribution. IEEE Transactions on Visualization and Computer Graphics, (29)1:278-287, January 2023. [PUMA: 2023 a01 b01 from:christinawarren sfbtrr161 visus visus:kraketm visus:rodrigns visus:schulzch visus:weiskopf] URL

Nils Rodrigues, Christoph Schulz, Soren Doring, Daniel Baumgartner, Tim Krake, and Daniel Weiskopf. Relaxed Dot Plots: Faithful Visualization of Samples and Their Distribution. IEEE Transactions on Visualization and Computer Graphics, 59:1-59:7, 2022. [PUMA: 2022 a01 b01 sfbtrr161 visus visus:kraketm visus:rodrigns visus:schulzch visus:weiskopf] URL

Nils Rodrigues, Christoph Schulz, Soren Doring, Daniel Baumgartner, Tim Krake, and Daniel Weiskopf. Relaxed Dot Plots: Faithful Visualization of Samples and Their Distribution. IEEE Transactions on Visualization and Computer Graphics, 59:1-59:7, 2022. [PUMA: a01 visus:weiskopf b01 sfbtrr161 from:christinawarren visus:rodrigns 2022 visus visus:kraketm visus:schulzch] URL

Karsten Schatz, Christoph Müller, Patrick Gralka, Moritz Heinemann, Alexander Straub, Christoph Schulz, Matthias Braun, Tobias Rau, Michael Becher, Steffen Frey, Guido Reina, Michael Sedlmair, Daniel Weiskopf, Thomas Ertl, Patrick Diehl, Dominic Marcello, Juhan Frank, and Thomas Müller. 2019 IEEE Scientific Visualization Contest Winner: Visual Analysis of Structure Formation in Cosmic Evolution. IEEE Computer Graphics and Applications, (41)6:101-110, 2021. [PUMA: 2021 a01 a02 from:christinawarren inf sfbtrr161] URL

Karsten Schatz, Christoph Müller, Patrick Gralka, Moritz Heinemann, Alexander Straub, Christoph Schulz, Matthias Braun, Tobias Rau, Michael Becher, Steffen Frey, Guido Reina, Michael Sedlmair, Daniel Weiskopf, Thomas Ertl, Patrick Diehl, Dominic Marcello, Juhan Frank, and Thomas Müller. 2019 IEEE Scientific Visualization Contest Winner: Visual Analysis of Structure Formation in Cosmic Evolution. IEEE Computer Graphics and Applications, (41)6:101-110, 2021. [PUMA: 2021 a01 a02 sfbtrr161] URL

Sarah Dosdall, Katrin Angerbauer, Leonel Merino, Michael Sedlmair, and Daniel Weiskopf. Toward In-Situ Authoring of Situated Visualization with Chorded Keyboards. In Michael Burch, Günter Wallner, and Daniel Limberger (Eds.), VINCI '22: Proceedings of the 15th International Symposium on Visual Information Communication and Interaction, 14:1-5, ACM, August 2022. [PUMA: a01 visus:weiskopf sfbtrr161 from:christinawarren visus:angerbkn visus:sedlmaml a08 2022 visus] URL

Sarah Dosdall, Katrin Angerbauer, Leonel Merino, Michael Sedlmair, and Daniel Weiskopf. Toward In-Situ Authoring of Situated Visualization with Chorded Keyboards. In Michael Burch, Günter Wallner, and Daniel Limberger (Eds.), VINCI '22: Proceedings of the 15th International Symposium on Visual Information Communication and Interaction, 14:1-5, ACM, August 2022. [PUMA: a01 visus:weiskopf sfbtrr161 from:christinawarren visus:angerbkn visus:sedlmaml a08 2022 visus] URL

Sarah Dosdall, Katrin Angerbauer, Leonel Merino, Michael Sedlmair, and Daniel Weiskopf. Toward In-Situ Authoring of Situated Visualization with Chorded Keyboards. In Michael Burch, Günter Wallner, and Daniel Limberger (Eds.), VINCI '22: Proceedings of the 15th International Symposium on Visual Information Communication and Interaction, 14:1-5, ACM, August 2022. [PUMA: 2022 a01 a08 sfbtrr161 visus visus:angerbkn visus:sedlmaml visus:weiskopf] URL

Sarah Dosdall, Katrin Angerbauer, Leonel Merino, Michael Sedlmair, and Daniel Weiskopf. Toward In-Situ Authoring of Situated Visualization with Chorded Keyboards. In Michael Burch, Günter Wallner, and Daniel Limberger (Eds.), 15th International Symposium on Visual Information Communication and Interaction, VINCI 2022, Chur, Switzerland, August 16-18, 2022, 1-5, ACM, 2022. [PUMA: a01 visus:weiskopf sfbtrr161 from:christinawarren visus:angerbkn visus:sedlmaml a08 2022 visus] URL