Using Spatially Aware Tangible Displays for Exploring Virtual Spaces

To solve the challenge of exploring large information spaces on interactive surfaces such as tabletops, we introduce SpaceLens, a spatially aware handheld display that provides elegant three-dimensional exploration of rich datasets. This can either be volumetric data, a layered information space or a zoomable information space, which are mapped to the virtual exploration volume above a stationary surface. By moving the lens through the volume, corresponding data is displayed, thus serving as a window into virtuality. Various interaction techniques are introduced, which especially utilize the Z-axis (lens height) in a novel way, e.g. for zooming or displaying various information layers. The SpaceLens implementation uses an optically tracked, passive, top-projected paper lens, which is cheap, lightweight and flexible. A formative user study gave valuable insight and confirmed an intuitive interaction. In addition, a marker-tracked, active UMPC lens allows data exploration without a contextual display.

[1]  Mark Fiala,et al.  ARTag, a fiducial marker system using digital techniques , 2005, 2005 IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR'05).

[2]  Hong Hua,et al.  Magic Lenses for augmented virtual environments , 2006, IEEE Computer Graphics and Applications.

[3]  Gerhard Roth,et al.  Magic lens augmented reality: table-top and augmentorium , 2007, SIGGRAPH '07.

[4]  Tony DeRose,et al.  Toolglass and magic lenses: the see-through interface , 1993, SIGGRAPH.

[5]  Wendy E. Mackay,et al.  The missing link: augmenting biology laboratory notebooks , 2002, UIST '02.

[6]  Hiroshi Ishii,et al.  The metaDESK: models and prototypes for tangible user interfaces , 1997, UIST '97.

[7]  Ka-Ping Yee,et al.  Peephole displays: pen interaction on spatially aware handheld computers , 2003, CHI '03.

[8]  Lars Erik Holmquist,et al.  Ubiquitous graphics: combining hand-held and wall-size displays to interact with large images , 2006, AVI '06.

[9]  Scott E. Hudson,et al.  Moveable interactive projected displays using projector based tracking , 2005, UIST.

[10]  Dan Rosenfeld,et al.  Going beyond the display: a surface technology with an electronically switchable diffuser , 2008, UIST '08.

[11]  Benjamin B. Bederson,et al.  Space-scale diagrams: understanding multiscale interfaces , 1995, CHI '95.

[12]  George W. Fitzmaurice,et al.  Situated information spaces and spatially aware palmtop computers , 1993, CACM.

[13]  Takeshi Naemura,et al.  UlteriorScape: Interactive optical superimposition on a view-dependent tabletop display , 2008, 2008 3rd IEEE International Workshop on Horizontal Interactive Human Computer Systems.