Engineering Linear Ordering Algorithms for Optimizing Data Visualizations (Research Project)

Funding Organisation: Vienna Science and Technology Fund, WWTF
Project Number: ICT19-035
Duration: 07/2020 - 06/2024

Project Team

Alexander Dobler (Doctoral Student)
Markus Wallinger (Doctoral Student)
Jules Wulms (Postdoc, 2021-2022)
Martin Nöllenburg (Professor, Principal Investigator)

Alexander Dobler, Michael Stampfer, Martin Nöllenburg at the 20th anniversary of WWTF

Topic

Optimizing linear orderings of objects is a fundamental problem for many types of data visualizations ranging from graph layouts over geospatial data to abstract sets and sequences or time-series data. Yet a systematic investigation of algorithms for solving novel constrained and application-specific ordering problems that go beyond well-studied and NP-hard classic ordering problems is missing. Practical work in visualization often resorts to heuristics without rigorous performance and quality guarantees for solving these algorithmic problems. In this project we will take an algorithmic perspective on several different ordering problems in data visualization. In the algorithm engineering sense we want to cross the gap between fundamental theory and practical applications and aim to bring the benefit of rigorous formal methods into practically relevant implementations and at the same time define new algorithmic challenges inspired by recent visualization problems. On the one hand, we will investigate the complexity of new problem settings with special input configurations, structural constraints on feasible orderings, and dependencies between multiple objects and orderings. On the other hand, we will design and implement new and sufficiently scalable algorithms with formally proven performance guarantees to compute optimal and approximate solutions. We thoroughly evaluate the improvements over existing state-of-the-art heuristics in computational experiments and user studies.

Publications

27 results

2024
[27]	Computing Data-driven Multilinear Metro Maps Martin Nöllenburg, Soeren Terziadis The Cartographic Journal, pages 1–16, 2024. [bibtex] [doi]
[26]	Improving Temporal Treemaps by Minimizing Crossings Alexander Dobler, Martin Nöllenburg Comput. Graph. Forum, volume 43, number 3, pages e15087, 2024. [bibtex] [doi]
[25]	On the Complexity of the Storyplan Problem Carla Binucci, Emilio Di Giacomo, William J. Lenhart, Giuseppe Liotta, Fabrizio Montecchiani, Martin Nöllenburg, Antonios Symvonis J. Computer and Systems Sciences, volume 139, pages 103466, 2024. [bibtex] [doi]
[24]	Hoop Diagrams: A Set Visualization Method Peter Rodgers, Peter Chapman, Andrew Blake, Martin Nöllenburg, Markus Wallinger, Alexander Dobler Diagrammatic Representation and Inference (DIAGRAMS'24), volume 14981 of LNCS, pages 377-392, 2024, Springer. [bibtex] [doi]
[23]	GdMetriX - A NetworkX Extension For Graph Drawing Metrics Martin Nöllenburg, Sebastian Röder, Markus Wallinger Graph Drawing and Network Visualization (GD'24) (Stefan Felsner, Karsten Klein, eds.), volume 320 of LIPIcs, pages 45:1–45:3, 2024, Schloss Dagstuhl – Leibniz-Zentrum für Informatik. Note: Poster abstract [bibtex] [doi]
[22]	Constrained Boundary Labeling Thomas Depian, Martin Nöllenburg, Soeren Terziadis, Markus Wallinger Algorithms and Computation (ISAAC'24) (Julian Mestre, Anthony Wirth, eds.), volume 322 of LIPIcs, pages 11:1–11:16, 2024, Schloss Dagstuhl – Leibniz-Zentrum für Informatik. Note: To appear. [bibtex] [pdf] [doi]
[21]	Revisiting ILP Models for Exact Crossing Minimization in Storyline Drawings Alexander Dobler, Michael Jünger, Paul J. Jünger, Julian Meffert, Petra Mutzel, Martin Nöllenburg Graph Drawing and Network Visualization (GD'24) (Stefan Felsner, Karsten Klein, eds.), volume 320 of LIPIcs, pages 31:1–31:19, 2024, Schloss Dagstuhl – Leibniz-Zentrum für Informatik. [bibtex] [pdf] [doi]
[20]	Minimizing Corners in Colored Rectilinear Grids Thomas Depian, Alexander Dobler, Christoph Kern, Jules Wulms Algorithms and Computation (WALCOM'24) (Ryuhei Uehara, Katsuhisa Yamanaka, Hsu-Chun Yen, eds.), volume 14549 of LNCS, pages 134–148, 2024, Springer. [bibtex] [doi]
[19]	Boundary Labeling in a Circular Orbit Annika Bonerath, Martin Nöllenburg, Soeren Terziadis, Markus Wallinger, Jules Wulms Graph Drawing and Network Visualization (GD'24) (Stefan Felsner, Karsten Klein, eds.), volume 320 of LIPIcs, pages 22:1–22:17, 2024, Schloss Dagstuhl – Leibniz-Zentrum für Informatik. [bibtex] [pdf] [doi]
[18]	Bundling-Aware Graph Drawing Daniel Archambault, Giuseppe Liotta, Martin Nöllenburg, Tommaso Piselli, Alessandra Tappini, Markus Wallinger Graph Drawing and Network Visualization (GD'24) (Stefan Felsner, Karsten Klein, eds.), volume 320 of LIPIcs, pages 15:1–15:19, 2024, Schloss Dagstuhl – Leibniz-Zentrum für Informatik. [bibtex] [doi]
2023
[17]	LinSets.zip: Compressing Linear Set Diagrams Markus Wallinger, Alexander Dobler, Martin Nöllenburg IEEE Trans. Visualization and Computer Graphics, volume 29, number 6, pages 2875–2887, 2023. [bibtex] [doi]
[16]	Faster Edge-Path Bundling Through Graph Spanners Markus Wallinger, Daniel Archambault, David Auber, Martin Nöllenburg, Jaakko Peltonen Computer Graphics Forum, volume 42, number 6, pages e14789, 2023. [bibtex] [doi]
[15]	MosaicSets: Embedding Set Systems into Grid Graphs Peter Rottmann, Markus Wallinger, Annika Bonerath, Sven Gedicke, Martin Nöllenburg, Jan-Henrik Haunert IEEE Trans. Visualization and Computer Graphics, 2023. [bibtex] [pdf]
[14]	Splitting Vertices in 2-Layer Graph Drawings Reyan Ahmed, Patrizio Angelini, Michael A. Bekos, Giuseppe Di Battista, Michael Kaufmann, Philipp Kindermann, Stephen Kobourov, Martin Nöllenburg, Antonios Symvonis, Anaïs Villedieu, Markus Wallinger IEEE Computer Graphics and Applications, volume 43, number 3, pages 24–35, 2023. [bibtex] [doi]
[13]	Computing Hive Plots: A Combinatorial Framework Martin Nöllenburg, Markus Wallinger Graph Drawing and Network Visualization (GD'23) (Michael Bekos, Markus Chimani, eds.), volume 14466 of LNCS, pages 153–169, 2023, Springer. [bibtex] [pdf] [doi]
[12]	Planarizing Graphs and their Drawings by Vertex Splitting Martin Nöllenburg, Manuel Sorge, Soeren Terziadis, Anaïs Villedieu, Hsiang-Yun Wu, Jules Wulms Graph Drawing and Network Visualization (GD'22) (Patrizio Angelini, Reinhard von Hanxleden, eds.), volume 13764 of LNCS, pages 232–246, 2023, Springer. [bibtex] [pdf] [doi]
[11]	On Families of Planar DAGs with Constant Stack Number Martin Nöllenburg, Sergey Pupyrev Graph Drawing and Network Visualization (GD'23) (Michael Bekos, Markus Chimani, eds.), volume 14465 of LNCS, pages 135–151, 2023, Springer. [bibtex] [pdf] [doi]
[10]	The Influence of Dimensions on the Complexity of Computing Decision Trees Stephen G. Kobourov, Maarten Löffler, Fabrizio Montecchiani, Marcin Pilipczuk, Ignaz Rutter, Raimund Seidel, Manuel Sorge, Jules Wulms Conference on Artificial Intelligence (AAAI'23) (Brian Williams, Yiling Chen, Jennifer Neville, eds.), pages 8343–8350, 2023, AAAI Press. [bibtex] [doi]
[9]	Crossing Minimization in Time Interval Storylines Alexander Dobler, Martin Nöllenburg, Daniel Stojanovic, Anaïs Villedieu, Jules Wulms European Workshop on Computational Geometry (EuroCG'23) (Clemens Huemer, Carlos Seara, eds.), pages 36:1–36:7, 2023. [bibtex] [pdf]
[8]	Block Crossings in One-Sided Tanglegrams Alexander Dobler, Martin Nöllenburg Algorithms and Data Structures (WADS'23) (Pat Morin, Subhash Suri, eds.), volume 14079 of LNCS, pages 386–400, 2023, Springer. [bibtex] [pdf] [doi]
2022
[7]	Edge-Path Bundling: A Less Ambiguous Edge Bundling Approach Markus Wallinger, Daniel Archambault, David Auber, Martin Nöllenburg, Jaakko Peltonen IEEE Trans. Visualization and Computer Graphics, volume 28, number 1, pages 313–323, 2022. [bibtex] [doi]
[6]	Turbocharging Heuristics for Weak Coloring Numbers Alexander Dobler, Manuel Sorge, Anaïs Villedieu European Symposium on Algorithms (ESA 2022) (Shiri Chechik, Gonzalo Navarro, Eva Rotenberg, Grzegorz Herman, eds.), volume 244 of LIPIcs, pages 44:1–44:18, 2022, Schloss Dagstuhl – Leibniz-Zentrum für Informatik. [bibtex] [doi]
[5]	On Computing Optimal Linear Diagrams Alexander Dobler, Martin Nöllenburg Diagrammatic Representation and Inference (DIAGRAMS'22) (Valeria Giardino, Sven Linker, Richard Burns, Francesco Bellucci, Jean-Michel Boucheix, Petrucio Viana, eds.), volume 13462 of LNAI, pages 20–36, 2022, Springer. [bibtex] [pdf] [doi]
[4]	Multidimensional Manhattan Preferences Jiehua Chen, Martin Nöllenburg, Sofia Simola, Anaïs Villedieu, Markus Wallinger Theoretical Informatics (LATIN'22) (Armando Castañeda, Francisco Rodríguez-Henríquez, eds.), volume 13568 of LNCS, pages 273–289, 2022, Springer. [bibtex] [doi]
[3]	Compacting Squares: Input-Sensitive In-Place Reconfiguration of Sliding Squares Hugo A. Akitaya, Erik D. Demaine, Matias Korman, Irina Kostitsyna, Irene Parada, Willem Sonke, Bettina Speckmann, Ryuhei Uehara, Jules Wulms Scandinavian Symposium and Workshops on Algorithm Theory (SWAT'22) (Artur Czumaj, Qin Xin, eds.), volume 227 of LIPIcs, pages 4:1–4:19, 2022, Schloss Dagstuhl – Leibniz-Zentrum für Informatik. [bibtex] [doi]
2021
[2]	On the Readability of Abstract Set Visualizations Markus Wallinger, Ben Jacobsen, Stephen Kobourov, Martin Nöllenburg IEEE Trans. Visualization and Computer Graphics, volume 27, number 6, pages 2821–2832, 2021. [bibtex] [doi]
[1]	MetroSets: Visualizing Sets as Metro Maps Ben Jacobsen, Markus Wallinger, Stephen Kobourov, Martin Nöllenburg IEEE Trans. Visualization and Computer Graphics, volume 27, number 2, pages 1257–1267, 2021. [bibtex] [pdf] [doi]