Interactive Environment-Aware Handheld Projectors for Pervasive Computing Spaces

This paper presents two novel handheld projector systems for indoor pervasive computing spaces. These projection-based devices are "aware" of their environment in ways not demonstrated previously. They offer both spatial awareness, where the system infers location and orientation of the device in 3D space, and geometry awareness, where the system constructs the 3D structure of the world around it, which can encompass the user as well as other physical objects, such as furniture and walls. Previous work in this area has predominantly focused on infrastructure-based spatial-aware handheld projection and interaction. Our prototypes offer greater levels of environment awareness, but achieve this using two opposing approaches; the first infrastructure-based and the other infrastructure-less sensing. We highlight a series of interactions including direct touch, as well as in-air gestures, which leverage the shadow of the user for interaction. We describe the technical challenges in realizing these novel systems; and compare them directly by quantifying their location tracking and input sensing capabilities.

[1]  Ivan Poupyrev,et al.  Motionbeam: a metaphor for character interaction with handheld projectors , 2011, CHI.

[2]  Chris Harrison,et al.  OmniTouch: wearable multitouch interaction everywhere , 2011, UIST.

[3]  Takeshi Naemura,et al.  Virtual shadows-enhanced interaction in mixed reality environment , 2002, Proceedings IEEE Virtual Reality 2002.

[4]  Gregory D. Abowd,et al.  The Aware Home: A Living Laboratory for Ubiquitous Computing Research , 1999, CoBuild.

[5]  Xiang Cao,et al.  Multi-user interaction using handheld projectors , 2007, UIST.

[6]  Michael M. Kazhdan,et al.  Poisson surface reconstruction , 2006, SGP '06.

[7]  Greg Welch,et al.  The office of the future: a unified approach to image-based modeling and spatially immersive displays , 1998, SIGGRAPH.

[8]  Bernt Schiele,et al.  Cooperative Augmentation of Smart Objects with Projector-Camera Systems , 2007, UbiComp.

[9]  Bernhard P. Wrobel,et al.  Multiple View Geometry in Computer Vision , 2001 .

[10]  D. Iwai,et al.  User Interface by Virtual Shadow Projection , 2006, 2006 SICE-ICASE International Joint Conference.

[11]  Xiang Cao,et al.  Interacting with dynamically defined information spaces using a handheld projector and a pen , 2006, UIST.

[12]  Otmar Hilliges,et al.  Bringing physics to the surface , 2008, UIST '08.

[13]  Michitaka Hirose,et al.  Projected augmentation - augmented reality using rotatable video projectors , 2004, Third IEEE and ACM International Symposium on Mixed and Augmented Reality.

[14]  Ivan Poupyrev,et al.  SideBySide: ad-hoc multi-user interaction with handheld projectors , 2011, UIST.

[15]  Andrew W. Fitzgibbon,et al.  KinectFusion: real-time dynamic 3D surface reconstruction and interaction , 2011, SIGGRAPH '11.

[16]  Andrew W. Fitzgibbon,et al.  Real-time human pose recognition in parts from single depth images , 2011, CVPR 2011.

[17]  Myron W. Krueger,et al.  Artificial reality II , 1991 .

[18]  Claudio S. Pinhanez The Everywhere Displays Projector: A Device to Create Ubiquitous Graphical Interfaces , 2001, UbiComp.

[19]  M. Weiser The Computer for the Twenty-First Century , 1991 .

[20]  Pattie Maes,et al.  WUW - wear Ur world: a wearable gestural interface , 2009, CHI Extended Abstracts.

[21]  Masanori Sugimoto,et al.  Hotaru: Intuitive Manipulation Techniques for Projected Displays of Mobile Devices , 2005, INTERACT.

[22]  Dieter Fox,et al.  Interactive 3D modeling of indoor environments with a consumer depth camera , 2011, UbiComp '11.

[23]  Jiawen Chen,et al.  Pervasive Pose-Aware Applications and Infrastructure , 2003, IEEE Computer Graphics and Applications.

[24]  Yoichi Sato,et al.  Fast tracking of hands and fingertips in infrared images for augmented desk interface , 2000, Proceedings Fourth IEEE International Conference on Automatic Face and Gesture Recognition (Cat. No. PR00580).

[25]  Hrvoje Benko,et al.  Combining multiple depth cameras and projectors for interactions on, above and between surfaces , 2010, UIST.

[26]  Paul A. Beardsley,et al.  Interaction using a handheld projector , 2005, IEEE Computer Graphics and Applications.

[27]  Lisa G. Cowan,et al.  ShadowPuppets: supporting collocated interaction with mobile projector phones using hand shadows , 2011, CHI.

[28]  Barry Brumitt,et al.  EasyLiving: Technologies for Intelligent Environments , 2000, HUC.

[29]  Mark Weiser The computer for the 21st century , 1991 .