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Usability & Human Factors

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Presentation on theme: "Usability & Human Factors"— Presentation transcript:

1 Usability & Human Factors
Unit 12b Information Visualization and Information Rich Interfaces

2 Hypervariate data sets
Implementation: scaling (in space or time) Scaling in space: use different portion of the screen to show overview of the whole data set and detail of the selected subset Scaling in time: alternate between overview of the whole set and detail of the selected subset sequentially in the same space Solution: overview of the whole set and details of the selected subset Common problem: many data sets are too large to visualize on one screen Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

3 Health IT Workforce Curriculum Version 1.0/Fall 2010
Scaling Variation in space Can overview and detail co-exist in the same space? Distortion Fish-eye view Bifocal display Perspective wall Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

4 Health IT Workforce Curriculum Version 1.0/Fall 2010
Scaling George Furnas 1981 Shneiderman: Provide[s] detailed view (focus) and overview (context) without obscuring anything… The focus area (or areas) is magnified to show detail, while preserving the context, all in the single display. Fish-eye view 1D Fisheye 2D Fisheye Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

5 Health IT Workforce Curriculum Version 1.0/Fall 2010
Scaling Fish-eye view Examples: Fish-eye views for long menus Bederson UIST’00 Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

6 Health IT Workforce Curriculum Version 1.0/Fall 2010
Scaling Fish-eye viewzz Examples: Fish-eye views for graphs Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

7 Health IT Workforce Curriculum Version 1.0/Fall 2010
Scaling Bifocal display First suggested by Spence and Apperley (1980) Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

8 Health IT Workforce Curriculum Version 1.0/Fall 2010
Scaling Bifocal display Examples Early implementation Spence – 1980? Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

9 Health IT Workforce Curriculum Version 1.0/Fall 2010
Scaling Perspective Wall Perspective wall Bifocal display Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

10 Health IT Workforce Curriculum Version 1.0/Fall 2010
Scaling Perspective Wall Examples: Map work charts onto diagram x-axis is time, y-axis is project (Mackinlay, Robertson, Card ’91) Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

11 Health IT Workforce Curriculum Version 1.0/Fall 2010
Scaling Perspective wall Examples: File navigation Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

12 Health IT Workforce Curriculum Version 1.0/Fall 2010
Scaling Magic Lens Panning and Zooming Variation in time Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

13 Health IT Workforce Curriculum Version 1.0/Fall 2010
Scaling Magic Lens Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

14 Health IT Workforce Curriculum Version 1.0/Fall 2010
Scaling Panning and Zooming Panning – smooth movement of camera across scene (or scene moves and camera stays still) Zooming – increasing or decreasing the magnification of the objects in a scene Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

15 Hierarchies and Trees Definition Hierarchies in the world
Data repository in which cases are related to subcases Hierarchies in the world Family histories File/directory Organizational chart Object-oriented software classes Main representation Node-link Space-filling Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

16 Node-link Hierarchies
Root at top Image source: “Data structures and file handling: Tree-Maps: a space-filling approach to the visualization of hierarchical information structures”, Brian Johnson, Ben Shneiderman Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

17 Node-link Hierarchies
Examples Problems Quickly fills out screen real estate Difficult to maintain overview of the structure Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

18 Node-link Hierarchies
Potential solutions Cone Trees (PARC, Robertson, Mackinlay, Card) Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

19 Health IT Workforce Curriculum Version 1.0/Fall 2010
Space-filling Treemap examples Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

20 Time Series Data Definition
Data sets with one variable being the time of the event Could be uni- or hypervariable Data mining – looking for patters Visualization – looking for visual patterns Standard presentation Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

21 Time Series Data (con’t)
Predictive calendars Examples Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

22 Time Series Data (con’t)
One issue – temporal data is often periodic (cycles – daily, weekly, yearly, etc.) Linear display is problematic for periodic data Potential answer – spiral display Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

23 Time Series Data (con’t)
Additional benefit of spiral display – discovering periodicity in data Time Series Data (con’t) Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

24 Interaction and Dynamic Queries
Data transformation Details on demand Dynamic query Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

25 Interaction and Dynamic Queries (con’t)
Data transformation Details on demand Details could be removed from the main view for different reasons (mainly due to scaling issues) Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

26 Interaction and Dynamic Queries (con’t)
Data transformation Dynamic queries Visual representation of all possible objects and actions Rapid, incremental and reversible actions Direct manipulation is favored (selection by pointing, not typing) Specifying a query brings immediate display of results Responsive interaction (< 0.1 sec) Classic example: HomeFinder – 1992, University of Maryland, Human Computer Interaction Lab (Ben Shneiderman) Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

27 Information Visualization in Medicine
Purpose: Visually present medical data in more intuitive, easy to understand, learn, recognize, navigate and manage formats Visually magnify subtle aspects of the diagnostic, therapeutic, patient management and healing process which otherwise could be difficult to notice Prevent information overload and allow members of clinical staff to master large quantities of information Luca Chittaro, “Information Visualization and its Application to Medicine” Artificial Intelligence in Medicine, vol.22(2), 2001, pp.81-88 Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

28 Information Visualization in Medicine (con’t)
Examples The Visible Human Explorer ( Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

29 Information Visualization in Medicine (con’t)
Examples Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

30 Information Visualization in Medicine (con’t)
Examples Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

31 Information Visualization in Medicine (con’t)
Examples Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

32 Health IT Workforce Curriculum Version 1.0/Fall 2010
Conclusions Assignments Component 15/Unit 12b Health IT Workforce Curriculum Version 1.0/Fall 2010

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