Controlling and Filtering Information Density with Spatial Interaction Techniques via Handheld Augmented Reality

In our paper we are proposing a method for contextual information filtering based on the user’s movement and location in order to enable the intuitive usage of an ”internet of things” via augmented reality (AR) without information overload. Similar to Ray & Charles Eames’ ”Power of Ten” and Jef Raskin’s ”Zooming Interface” we are displaying seamless information layers by simply moving around a Greek statue or a miniature model of an Ariane-5 space rocket. Therefore we are employing concepts of camera- and motion-based interaction techniques and use the metaphors of ”investigation” and ”exploration” to control the way augmented and visually superimposed elements are presented in order to mediate information in an enhanced and engaging manner with aspects of digital storytelling techniques.

[1]  Dieter Schmalstieg,et al.  Image-driven view management for augmented reality browsers , 2012, 2012 IEEE International Symposium on Mixed and Augmented Reality (ISMAR).

[2]  E. Tufte Beautiful Evidence , 2006 .

[3]  Jon Trinder,et al.  The Humane Interface: New Directions for Designing Interactive Systems , 2002, Interact. Learn. Environ..

[4]  Areti Damala,et al.  Bridging the gap between the digital and the physical: design and evaluation of a mobile augmented reality guide for the museum visit , 2008, DIMEA.

[5]  Arjan Kuijper,et al.  Reconstruction and Accurate Alignment of Feature Maps for Augmented Reality , 2011, 2011 International Conference on 3D Imaging, Modeling, Processing, Visualization and Transmission.

[6]  Michael Rohs,et al.  A Conceptual Framework for Camera Phone-Based Interaction Techniques , 2005, Pervasive.

[7]  Jun Rekimoto,et al.  Tilting operations for small screen interfaces , 1996, UIST '96.

[8]  Yun-Ta Tsai,et al.  The Westwood Experience: Connecting story to locations via Mixed Reality , 2010, 2010 IEEE International Symposium on Mixed and Augmented Reality - Arts, Media, and Humanities.

[9]  Arjan Kuijper,et al.  MobileAR Browser - A generic architecture for rapid AR-multi-level development , 2013, Expert Syst. Appl..

[10]  Sabine Webel,et al.  Multimodal training of maintenance and assembly skills based on augmented reality , 2012 .

[11]  Eric Horvitz,et al.  Sensing techniques for mobile interaction , 2000, UIST '00.

[12]  Charles Woodward,et al.  Camera-based interactions for augmented reality , 2009, Advances in Computer Entertainment Technology.

[13]  Richard Szeliski,et al.  The VideoMouse: a camera-based multi-degree-of-freedom input device , 1999, UIST '99.

[14]  Charles Eames,et al.  Powers of ten , 2005 .

[15]  Roy Want,et al.  Squeeze me, hold me, tilt me! An exploration of manipulative user interfaces , 1998, CHI.

[16]  Scott R. Klemmer,et al.  Proceedings of the 24th annual ACM symposium adjunct on User interface software and technology , 2011, UIST 2011.

[17]  Uwe Hansmann,et al.  Pervasive Computing , 2003 .