The Micro Smart Grid Tabletop - A Real World Case Study for Tangible Multitouch Technologies for Communicating Complex Concepts

paper we present a case study for an interactive surface, an explanatory tangible multitouch system in an exhibition context. The system is used as an expressive representation of the complex concept of Micro Smart Grids (MSGs) and their influence on our future energy infrastructure. We built the experience upon research on integrating tangibles into playful and exploratory learning environments. Beyond the well-researched learning experience with tangibles, we developed the system to stimulate and foster discussions on the subject of MSGs. Besides the technology behind the system we will discuss limitations and advantages of combining tangible and multitouch technologies. To conclude we present reflections on the design and interaction concepts that were embedded into the system.

[1]  U. Goswami A quick primer on brain development , 2004 .

[2]  Hiroshi Ishii,et al.  A tangible interface for IP network simulation , 2003, CHI Extended Abstracts.

[3]  Elise van den Hoven,et al.  Framing tangible interaction frameworks , 2009, Artificial Intelligence for Engineering Design, Analysis and Manufacturing.

[4]  Erik Duval,et al.  MACE - Enriching Architectural Learning Objects for Experience Multiplication , 2007, EC-TEL.

[5]  Marek Hatala,et al.  Situated play in a tangible interface and adaptive audio museum guide , 2007, Personal and Ubiquitous Computing.

[6]  Hiroshi Ishii,et al.  Emerging frameworks for tangible user interfaces , 2000, IBM Syst. J..

[7]  Eva Hornecker,et al.  An Encompassing View on Tangible Interaction: A Framework , 2006 .

[8]  Elizabeth D. Mynatt,et al.  Secrets to success and fatal flaws: the design of large-display groupware , 2006, IEEE Computer Graphics and Applications.

[9]  Sergi Jordà,et al.  The reacTable: exploring the synergy between live music performance and tabletop tangible interfaces , 2007, TEI.

[10]  Boris Müller,et al.  mæve - An Interactive Tabletop Installation for Exploring Background Information in Exhibitions , 2009, HCI.

[11]  Philip J. Smith,et al.  Human-Centered Design of Decision-Support Systems , 2007 .

[12]  Claude Ghaoui,et al.  Encyclopedia of Human Computer Interaction , 2005 .

[13]  J. Underkoff Urp : A Luminous-Tangible Workbench for Urban Planning and Design , 1999, CHI 1999.

[14]  Brygg Ullmer,et al.  Proceedings of the 1st international conference on Tangible and embedded interaction , 2007 .

[15]  Hiroshi Ishii,et al.  Illuminating light: an optical design tool with a luminous-tangible interface , 1998, CHI.

[16]  Yvonne Rogers,et al.  Conceptualising tangibles to support learning , 2003, IDC '03.

[17]  Hiroshi Ishii,et al.  Tangible User Interfaces , 2006 .

[18]  Jiao Jian-li Literature Review in Learning with Tangible Technologies , 2008 .

[19]  J. Preece,et al.  User-Centered Design , 2004 .

[20]  Eva Hornecker,et al.  “I don’t understand it either, but it is cool” - visitor interactions with a multi-touch table in a museum , 2008, 2008 3rd IEEE International Workshop on Horizontal Interactive Human Computer Systems.

[21]  Jacob Buur,et al.  Getting a grip on tangible interaction: a framework on physical space and social interaction , 2006, CHI.