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Robert Kosara, Helwig Hauser 1InfoVis STAR The State of the Art in Information Visualization Robert Kosara, Helwig Hauser
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2InfoVis STAR Overview Taxonomy Interaction Method Types 1D Methods 2D Methods nD Methods Trees InfoVis and SciVis User Studies Future of InfoVis Networks/Graphs Temporal Data Text Software
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Robert Kosara, Helwig Hauser 3InfoVis STAR Taxonomy Most important and most difficult problem The classic: Shneiderman:VL:1996 Problems: Primarily targets data types (not tasks!) Mixes data and visual dimensions (cone trees are 3D?!) Strange classifications (text is 1D?!) Does not account for use of visualization A different taxonomy is needed
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Robert Kosara, Helwig Hauser 4InfoVis STAR Other Taxonomies There are others... Operator interaction framework (Chi:InfoVis:1998) sdf
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Robert Kosara, Helwig Hauser 5InfoVis STAR Our Taxonomy Oriented at use of the data Presentation of the data How people work with the method Available interaction methods One method possibly in several categories
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Robert Kosara, Helwig Hauser 6InfoVis STAR Interaction Focus+Context (F+C) Distortion-oriented Magic lenses/Toolglasses In-Place A general(ly good) idea Multiple Views Linking&Brushing (L&B)
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Robert Kosara, Helwig Hauser 7InfoVis STAR Provide more space for important parts – but don‘t lose context Methods: Fisheye Views (Furnas:SIGCHI:1986) Perspective Wall (Mackinlay:CHI:1991) Document lens (Robertson:UIST:1993) Etc. Review and Taxonomy (Leung:TCHI:1994) F+C: Distortion-oriented
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Robert Kosara, Helwig Hauser 8InfoVis STAR F+C: Magic Lenses Provide more/other information for objects on screen Several similar techniques Methods: 2D Taxonomy (Bier:CHI:1994) 3D (Viega:UIST:1996) F+C Screen (Baudisch:UIST:2001)
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Robert Kosara, Helwig Hauser 9InfoVis STAR F+C: In-Place Point the user at important objects – use different style, color, etc. for F+C Methods: GeoSpace (Lokuge:CHI:1995) Cheops (Beaudoin:Vis:1996) Semantic Depth of Field (SDOF) (Kosara:InfoVis:2001)
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Robert Kosara, Helwig Hauser 10InfoVis STAR Multiple Views Different views on the same data (Baldonado:AVI:2000, North:HCS:2000) Provide More and Different information Interaction Focus+Context
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Robert Kosara, Helwig Hauser 11InfoVis STAR Linking&Brushing (L&B) Brush data values in one view See the same values highlighted in other view (linking) (Becker:Technometrics:1987) Different kinds of brushing (Wills:InfoVis:1996)
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Robert Kosara, Helwig Hauser 12InfoVis STAR 1D Methods Essentially linear work with data of any dimensionality or structure Methods Table Lens (Rao:CHI:1994) + Multiple focal levels (Tenev:InfoVis:1997) SuperTable + Scatterplot (Klein:IV:2002) LensBar (Masui:InfoVis:1998)
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Robert Kosara, Helwig Hauser 13InfoVis STAR 2D Methods Overlapping scalar fields and GIS Scalar fields Map with bars (Healey:TVCG:1999) Enridged contour maps (Wijk:Vis:2001) Oriented texture slivers (Weigle:GI:2000) Geographical Information Systems (GIS) GeoSpace (Lokuge:CHI:1995) Macroscope (Lieberman:UIST:1994) Etc.
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Robert Kosara, Helwig Hauser 14InfoVis STAR High-Dimensional („nD“) Methods Data is High-Dimensional Unstructured Different Types of Methods Glyphs Non-Orthogonal display Projections and selections Interaction-rich methods
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Robert Kosara, Helwig Hauser 15InfoVis STAR nD: Glyphs Encode data in the features of an object Methods Chernoff faces (Chernoff:AmStat:1973) Emphatic Visualization Algorithm (Loizides:IV:2002) Cardiovascular data (Agutter:InfoVis:2001) Shapes (Ebert:CG:2000) Stick Figures (Pickett:SMC:1988)
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Robert Kosara, Helwig Hauser 16InfoVis STAR nD: Non-Orthogonal Display Display dimensions non-orthogonally Methods: Parallel coordinates (Inselberg:InfoVis:1999) Angular Brushing (Hauser:InfoVis:2002) Higher order PCs (Theisel:CGF:1998) Star plot (Chambers:1983) Circle Segments (Ankerst:Vis:1996) Sunflower (Rose:InfoVis:1999)
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Robert Kosara, Helwig Hauser 17InfoVis STAR nD: Projections and Selections Reduce the dimensionality by projection and selection Methods: Scatterplot matrix (Cleveland:1985) Hyperslice (Wijk:Vis:1993),Hypercell (Santos:VisSym:2002) Dimensional stacking (LeBlanc:Vis:1990) Prosection Views (Furnas:JCGS:1994), Prosection Matrix (Spence:InfoVis:1995)
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Robert Kosara, Helwig Hauser 18InfoVis STAR nD: Interaction-rich Methods Interaction-intensive methods for nD Methods: Worlds within worlds (Feiner:UIST:1990) Reorderable Matrix (Bertin:1981, Siirtola:IV:1999) Advizor (Eick:TVCG:2000)
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Robert Kosara, Helwig Hauser 19InfoVis STAR Hierarchical (Tree) Data Very common in literature Special Case of graphs – but separate methods make sense Different Methods Side View Top View
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Robert Kosara, Helwig Hauser 20InfoVis STAR Trees: Side View Show the branch structure of the tree Methods Cone and cam trees (Robertson:CHI:1991) Generalized cone trees (Jeong:InfoVis:1998) Cylindrical trees (Dachselt:InfoVis:2001) Pyramids (Andrews:IV:2002) AsbruView (Kosara:AIMJ:2001) Botanical tree vis (Wijk:InfoVis:2001)
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Robert Kosara, Helwig Hauser 21InfoVis STAR Trees: Top View Space-filling trees Methods Treemap (Shneiderman:ToG:1992) Squarified treemap (Bruls:VisSym:2000) Ordered treemap layout (Shneiderman:InfoVis:2001) Quantum/Bubble treemap (Bederson:UIST:2001) Cushion treemap (Wijk:InfoVis:1999)
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Robert Kosara, Helwig Hauser 22InfoVis STAR Network (Graph) Data Directed and undirected graphs, computer networks Methods: Graph drawing survey (Herman:TVCG:2000) H3 (Munzner:InfoVis:1997) Circles (Yee:InfoVis:2001) MBone (Munzner:InfoVis:1996) SeeNet (Becker:TVCG:1996)
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Robert Kosara, Helwig Hauser 23InfoVis STAR Temporal Data Record past and plan the future Past: Spirals (Alexa:InfoVis:2001) Cluster & calendar (Wijk:InfoVis:1999) Future: SOPOs (Rit:AAAI:1986) AsbruView (Kosara:AIMJ:2001)
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Robert Kosara, Helwig Hauser 24InfoVis STAR Textual Data Why text is more than one-dimensional Methods: SPIRE (Wise:InfoVis:1995) ThemeRiver (Havre:TVCG:2002) Shape-based (Rohrer:CGA:1999) Galaxy of news (Rennison:UIST:1994)
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Robert Kosara, Helwig Hauser 25InfoVis STAR Show structure of program, support software testing Methods: Seesoft (Eick:TSE:1992, Ball:Computer:1996) Program testing (Eagan:InfoVis:2001) InfoBUG (Chuah:InfoVis:1997) Program structure (Telea:VisSym:2002) Software Visualization
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Robert Kosara, Helwig Hauser 26InfoVis STAR InfoVis and SciVis Support and enhance SciVis with InfoVis Examples: WEAVE (Gresh:Vis:2000) 3D transfer functions (Kniss:Vis:2001) Smooth brushing (Doleisch:WSCG:2002)
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Robert Kosara, Helwig Hauser 27InfoVis STAR Perception, User Studies Find out how effective a method is Papers: 2D vs. 3D (Robertson:UIST:1998, Smallman:CGA:2001, Tavanti:InfoVis:2001, Cockburn:CHI:2002) SDOF-Study (Kosara:VisSym:2002) „Which Blair Project“ (Rogowitz:Vis:2001) Reorderable matrix study (Siirtola:IV:1999) Tree visus (Barlow:InfoVis:2001)
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Robert Kosara, Helwig Hauser 28InfoVis STAR The Future of InfoVis Large Data Fast Visually effective More integration of different methods More interaction in methods More perception, cognition, studies InfoVis as secondary task
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