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Résultat majeur : SIGMA LENSES: FOCUS-CONTEXT TRANSITIONS COMBINING SPACE, TIME AND TRANSLUCENCE
SIGMA LENSES: FOCUS-CONTEXT TRANSITIONS COMBINING SPACE, TIME AND TRANSLUCENCE
09 avril 2008

By E. Pietriga and C. Appert, CHI '08: Proceedings of the SIGCHI Conference on Human Factors in Computing Systems
Focus+context techniques such as fisheye lenses are used to navigate and manipulate objects in multi-scale worlds. They provide in-place magnification of a region without requiring users to zoom the whole representation and consequently lose context. Their adoption is however hindered by usability problems mostly due to the nature of the transition between focus and context. Existing transitions are often based on a physical metaphor (magnifying glass, fisheye, rubber sheet), and are almost always achieved through a single dimension: space. We investigate how other dimensions, namely time and translucence, can be used to achieve more efficient transitions. We present an extension to Carpendale's framework for unifying presentation space accommodating these new dimensions. We define new lenses in that space, called Sigma lenses, and compare them to existing lenses through experiments based on a generic task: focus targeting. Results show that one new lens, the Speed-coupled flattening lens, significantly outperforms all others.



Activités de recherche
  ° Techniques d'interaction graphique
  ° Interaction multi-échelle
  ° Ingénierie des systèmes interactifs

Equipe
  ° Informatique Centrée sur l'Humain

Contact
  ° PIETRIGA Emmanuel
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