Shadow reaching: a new perspective on interaction for large displays

We introduce Shadow Reaching, an interaction technique that makes use of a perspective projection applied to a shadow representation of a user. The technique was designed to facilitate manipulation over large distances and enhance understanding in collaborative settings. We describe three prototype implementations that illustrate the technique, examining the advantages of using shadows as an interaction metaphor to support single users and groups of collaborating users. Using these prototypes as a design probe, we discuss how the three components of the technique (sensing, modeling, and rendering) can be accomplished with real (physical) or computed (virtual) shadows, and the benefits and drawbacks of each approach.

[1]  Masood Masoodian,et al.  Use of Video Shadow for Small Group Interaction Awareness on a Large Interactive Display Surface , 2003, AUIC.

[2]  Patrick Baudisch,et al.  Improving drag-and-drop on wall-size displays , 2005, Graphics Interface.

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

[4]  Regan L. Mandryk,et al.  TractorBeam Selection Aids: Improving Target Acquisition for Pointing Input on Tabletop Displays , 2005, INTERACT.

[5]  Carl Gutwin,et al.  A Descriptive Framework of Workspace Awareness for Real-Time Groupware , 2002, Computer Supported Cooperative Work (CSCW).

[6]  George W. Fitzmaurice,et al.  A remote control interface for large displays , 2004, UIST '04.

[7]  Mike Wu,et al.  Multi-finger and whole hand gestural interaction techniques for multi-user tabletop displays , 2003, UIST '03.

[8]  Myron W. Krueger,et al.  VIDEOPLACE—an artificial reality , 1985, CHI '85.

[9]  Regan L. Mandryk,et al.  System Guidelines for Co-located, Collaborative Work on a Tabletop Display , 2003, ECSCW.

[10]  Desney S. Tan,et al.  Pre-emptive shadows: eliminating the blinding light from projectors , 2002, CHI Extended Abstracts.

[11]  Carl Gutwin,et al.  Superflick: a natural and efficient technique for long-distance object placement on digital tables , 2006, Graphics Interface.

[12]  James W. Davis,et al.  Virtual PAT: A Virtual Personal Aerobics Trainer , 1998 .

[13]  Jun Rekimoto,et al.  Pick-and-drop: a direct manipulation technique for multiple computer environments , 1997, UIST '97.

[14]  Mountaz Hascoët,et al.  Throwing Models for Large Displays , 2008 .