Homework: Paper Presentations

Part A

Pick one of the papers below to present to the class.

• Gansner, E.; Hu, Y. & Kobourov, S. GMap: Visualizing graphs and clusters as maps PacificVIS ‘10: Proc IEEE Pacific Visualization Symposium, 2010, 201-208. DOI

• Nocaj, A. & Brandes, U. Organizing search results with a reference map TVCG: IEEE Transactions on Visualization and Computer Graphics, 2012, 18, 2546-2555. DOI

• Cao, N.; Gotz; D.; Sun; J. & Qu, H. DICON: Interactive visual analysis of multidimensional clusters TVCG: IEEE Transactions on Visualization and Computer Graphics, 2011, 17, 2581-2590. DOI

• Pupyrev, S.; Nachmanson, L.; Bereg, S. & Holroyd, A. E. Edge routing with ordered bundles GD ‘11: Proc. 19th International Symposium on Graph Drawing, Springer-Verlag, 2011, 136-147. DOI

• Navlakha, S.; Schatz, M. C. & Kingsford, C. Revealing biological modules via graph summarization Journal of Computational Biology, 2009, 16, 253-264. DOI

• Archambault, D.; Munzner, T. & Auber, D. GrouseFlocks: steerable exploration of graph hierarchy space TVCG: IEEE Transactions on Visualization and Computer Graphics, 2008, 14, 900-913. DOI

• Hachul, S. & Jünger, M. Drawing large graphs with a potential-field-based multilevel algorithm GD ‘04: Proc. 12th International Symposium on Graph Drawing, Springer, 2005, 3383/2005, 285-295. DOI

• Bach, B.; Riche, N. H.; Hurter, C.; Marriott, K.; & Dwyer T. Towards Unambiguous Edge Bundling: Investigating Confluent Drawings for Network Visualization TVCG: IEEE Transactions on Visualization and Computer Graphics, 2017, 23, 541-550. DOI

• Yang, Y.; Dwyer, T.; Goodwin, S.; & Marriott, K. Many-to-Many Geographically-Embedded Flow Visualisation: An Evaluation TVCG: IEEE Transactions on Visualization and Computer Graphics, 2017, 23, 411-420. DOI

• Behrisch, M.; Bach, B.; Hund, M.; Delz, M.; von Rüden, L.; Fekete, J-D.; & Schreck, T. Magnostics: Image-Based Search of Interesting Matrix Views for Guided Network Exploration TVCG: IEEE Transactions on Visualization and Computer Graphics, 2017, 23, 31-40. DOI

• Meulemans, W.; Henry Riche, N.; Speckmann, B.; Alper, B. & Dwyer, T. KelpFusion: a hybrid set visualization technique TVCG: IEEE Transactions on Visualization and Computer Graphics, IEEE Educational Activities Department, 2013, 19, 1846-1858. DOI

• Nocaj, A. & Brandes, U. Organizing search results with a reference map. TVCG: IEEE Transactions on Visualization and Computer Graphics, 2012, 18, 2546-2555. DOI

• Chau, D. H.; Kittur, A.; Hong, J. I. & Faloutsos, C. Apolo: making sense of large network data by combining rich user interaction and machine learning. CHI ‘11: Proc. SIGCHI Conference on Human Factors in Computing Systems, ACM, 2011, 167-176. DOI

• Bezerianos, A.; Chevalier, F.; Dragicevic, P.; Elmqvist, N. & Fekete, J.-D. GraphDice: A system for exploring multivariate social networks. EuroVis ‘10: Proc. 2010 Eurographics/IEEE Symposium on Visualization, 2010. DOI

• Stasko, J.; Görg, C. & Liu, Z. Jigsaw: Supporting investigative analysis through interactive visualization. IVS: Information Visualization, 2008, 7, 118-132. DOI

• Purchase, H. C. Which aesthetic has the greatest effect on human understanding? GD ‘97: Proc. 5th International Symposium on Graph Drawing, Springer, 1997, 1353/1997, 248-261. DOI

• Fruchterman, T. M. J. & Reingold, E. M. Graph drawing by force-directed placement. SPE: Software: Practice and Experience, John Wiley & Sons, Inc., 1991, 21, 1129-1164. DOI

• Harel, D. & Koren, Y. Goodrich, M. & Kobourov, S. (Eds.) Graph drawing by high-dimensional embedding. GD ‘02: Proc. 10th International Symposium on Graph Drawing, Springer Berlin Heidelberg, 2002, 2528, 207-219. DOI

• Koren, Y.; Carmel, L. & Harel, D. Drawing huge graphs by algebraic multigrid optimization. Multiscale Modeling & Simulation, 2003, 1, 645-673. DOI

Feel free to suggest alternative papers as a followup discussion on Piazza.

Create a Piazza post:

• Make the title your name and the paper name, like so: Paper Title – Name

• Choose the correct folder.

• Ensure no other person has selected that paper already. If so, pick a new paper.

Part B

The instructor will randomly assign days to present.

Present the paper to the class during our regularly scheduled lecture. Your presentation should:

• Be 20 minutes long, including questions. Shoot for 15 minutes of content.

• Highlight significant contributions of the paper.

• Demonstrate the principles presented by the paper using images, video, interactive demos.

• Critically examine the results in the paper.

Please ensure you bring any necessary adapters, chargers, cables, etc. for presenting the tutorial on the projector. You will want to test this ahead of time.