polyzoom: multiscale and multifocus exploration in 2d visual spaces

PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces Waqas Javed, Sohaib Ghani, Niklas Elmqvist Purdue University West Lafayette, IN USA Presented By: Sohaib Ghani ACM CHI 2012 May 5-8, 2012 ▪ Austin, Texas

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Slides from ACM CHI 2012 presentation given by Sohaib Ghani.Abstract: The most common techniques for navigating in multiscale visual spaces are pan, zoom, and bird’s eye views. However, these techniques are often tedious and cumbersome to use, especially when objects of interest are located far apart. We present the PolyZoom technique where users progressively build hierarchies of focus regions, stacked on each other such that each subsequent level shows a higher magnification. Correlation graphics show the relation between parent and child viewports in the hierarchy. To validate the new technique, we compare it to standard navigation techniques in two user studies, one on multiscale visual search and the other on multifocus interaction. Results show that PolyZoom performs better than current standard techniques.

TRANSCRIPT

PolyZoom: Multiscale and Multifocus Exploration

in 2D Visual Spaces

Waqas Javed, Sohaib Ghani, Niklas ElmqvistPurdue UniversityWest Lafayette, IN

USA

Presented By: Sohaib Ghani

ACM CHI 2012May 5-8, 2012 ▪ Austin, Texas

Page 2: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

Where is Central Park???

Page 3: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

Where am I ???

Page 4: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

I foundCentral Park!!!

Page 5: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

Outline

• Motivation• Demo• Related Work• The PolyZoom Technique– Design Decisions– Layout– PolyZoom: System

• User Studies• Conclusion

Page 6: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

Motivation

• Multiscale visual space – Example: Google Maps – geospatial dataset

• Large (entire world) and two-dimensional• Multiscale (different data at different levels of detail)

• Navigation in such visual spaces is difficult – Desert fog– Multifocus interaction

Page 7: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

• PolyZoom is a multiscale multifocus technique for navigating in 2D visual spaces– Allows users to iteratively build a hierarchy of focus regions– Allows maintaining awareness of multiple scales of the visual space

• [Video]

PolyZoom

Related Work

• Common Navigation Techniques– Scrolling (Igarashi and Hinckley 2000)

– Pan & Zoom ( Furnas and Bederson 2005)

– Overview + Detail (Hornbæk and Frøkjær 2001)

– Focus + Context (Furnas 1986)

• Multifocus Interaction– Split-screen techniques (Shoemaker and Gutwin 2007)

– Stack zooming (Javed and Elmqvist 2010)

• Multiscale Navigation– Pad (Perlin and Fox 1993)

Page 9: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

PolyZoom: Design Goals

• Multiscale awareness• Multifocus awareness• No distortion• No overlap

Page 10: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

PolyZoom: Layout• Layout• Viewport size management• Correlation graphics

Page 11: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

PolyZoom: System

• Web-based implementation– ActionScript3, Flash, and HTML5

• Google Maps dataset, NASA Universe, a Lunar dataset, and a Martian dataset

Page 12: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

User Studies

Page 13: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

Study 1: Multiscale Visual Search

Page 14: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

Study 1: Multiscale Visual Search

• Participants: 12• Navigation Techniques: 2– P – PolyZoom– S – Simple Pan & Zoom

• Hierarchy Levels L : 3 (3,4,5) • Repetitions: 4• Task

Page 15: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

Study 1: Multiscale Visual Search• Hypothesis: P will be faster than S• Result: significant main effect of Technique T on completion time • Also significant main effect of Hierarchy Level L on completion time • Completion time was roughly linear with number of hierarchy levels• Levels were significantly different with completion times ordered

3 < 4 < 5 (Tukey HSD, p < .05)• No significant interaction between T and L

Page 16: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

Study 2: Multifocus Comparison

Page 17: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

Study 2: Multifocus Comparison

• Participants: 12• Navigation Techniques: 2– P – PolyZoom– S – Simple Pan & Zoom

• Discovery Order D : 5 (1,2,3,4,5) • Repetitions: 2• Task

Page 18: PolyZoom: Multiscale and Multifocus Exploration in 2D Visual Spaces

Study 2: Multifocus Comparison• Hypothesis: P will be faster than S• Result: significant main effect of technique T on completion time • Discovery order D had a significant main effect on completion time

• Roughly linear (as expected)• Pairwise differences between orders were significant (Tukey HSD, p < .05)