Bridging the gap between the Kodak and the Flickr generations: A novel interaction technique for collocated photo sharing

Passing around stacks of paper photographs while sitting around a table is one of the key social practices defining what is commonly referred to as the 'Kodak Generation'. Due to the way digital photographs are stored and handled, this practice does not translate well to the 'Flickr Generation', where collocated photo sharing often involves the (wireless) transmission of a photo from one mobile device to another. In order to facilitate 'cross-generation' sharing without enforcing either practice, it is desirable to bridge this gap in a way that incorporates familiar aspects of both. In this paper, we discuss a novel interaction technique that addresses some of the constraints introduced by current communication technology, and that enables photo sharing in a way, which resembles the passing of stacks of paper photographs. This technique is based on dynamically generated spatial regions around mobile devices and has been evaluated through two user studies. The results we obtained indicate that our technique is easy to learn and as fast, or faster than, current technology such as transmitting photos between devices using Bluetooth. In addition, we found evidence of different sharing techniques influencing social practice around photo sharing. The use of our technique resulted in a more inclusive and group-oriented behavior in contrast to Bluetooth photo sharing, which resulted in a more fractured setting composed of sub-groups.

[1]  Gerd Kortuem,et al.  Sensing and visualizing spatial relations of mobile devices , 2005, UIST.

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

[3]  Keith Cheverst,et al.  Exploring bluetooth based mobile phone interaction with the hermes photo display , 2005, Mobile HCI.

[4]  Amy Voida,et al.  Mobiphos: a collocated-synchronous mobile photo sharing application , 2008, Mobile HCI.

[5]  Anthony G. Cohn,et al.  Calculi for Qualitative Spatial Reasoning , 1996, AISMC.

[6]  M. Sheelagh T. Carpendale,et al.  Interface Currents: Supporting Fluent Collaboration on Tabletop Displays , 2005, Smart Graphics.

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

[8]  Meredith Ringel Morris,et al.  DiamondSpin: an extensible toolkit for around-the-table interaction , 2004, CHI.

[9]  Carman Neustaedter,et al.  Sharing digital photographs in the home through physical mementos, souvenirs, and keepsakes , 2008, DIS '08.

[10]  Alex S. Taylor,et al.  Photo displays in the home , 2008, DIS '08.

[11]  Michael Rohs,et al.  The smart phone: a ubiquitous input device , 2006, IEEE Pervasive Computing.

[12]  Andrew D. Wilson,et al.  BlueTable: connecting wireless mobile devices on interactive surfaces using vision-based handshaking , 2007, GI '07.

[13]  Jun Rekimoto,et al.  SyncTap: An Interaction Technique for Mobile Networking , 2003, Mobile HCI.

[14]  Reinhard Moratz,et al.  Exploiting Qualitative Spatial Neighborhoods in the Situation Calculus , 2004, Spatial Cognition.

[15]  M. Sheelagh T. Carpendale,et al.  How people use orientation on tables: comprehension, coordination and communication , 2003, GROUP '03.

[16]  Andrew D. Miller,et al.  Give and take: a study of consumer photo-sharing culture and practice , 2007, CHI.

[17]  Allan Kuchinsky,et al.  Requirements for photoware , 2002, CSCW '02.

[18]  Jacques Calmet,et al.  Artificial Intelligence and Symbolic Mathematical Computation , 1992, Lecture Notes in Computer Science.

[19]  Gerd Kortuem,et al.  A relative positioning system for co-located mobile devices , 2005, MobiSys '05.

[20]  Ross Bencina,et al.  reacTIVision: a computer-vision framework for table-based tangible interaction , 2007, TEI.

[21]  Keith Cheverst,et al.  Probing communities: study of a village photo display , 2007, OZCHI '07.

[22]  Kenton O'Hara,et al.  Social coordination around a situated display appliance , 2003, CHI '03.

[23]  Tom Rodden,et al.  Collaborating around collections: informing the continued development of photoware , 2004, CSCW.

[24]  Diego López-de-Ipiña,et al.  TRIP: A Low-Cost Vision-Based Location System for Ubiquitous Computing , 2002, Personal and Ubiquitous Computing.

[25]  Michael Rohs,et al.  Group coordination and negotiation through spatial proximity regions around mobile devices on augmented tabletops , 2008, 2008 3rd IEEE International Workshop on Horizontal Interactive Human Computer Systems.

[26]  James R. Lewis,et al.  IBM computer usability satisfaction questionnaires: Psychometric evaluation and instructions for use , 1995, Int. J. Hum. Comput. Interact..

[27]  Rob Procter,et al.  Supporting informality: team working and integrated care records , 2004, CSCW.

[28]  Jefferson Y. Han Low-cost multi-touch sensing through frustrated total internal reflection , 2005, UIST.

[29]  Hirokazu Kato,et al.  Collaborative augmented reality , 2002, CACM.

[30]  Alex S. Taylor,et al.  Collocated social practices surrounding photos , 2008, CHI Extended Abstracts.

[31]  Saul Greenberg,et al.  The notification collage: posting information to public and personal displays , 2001, CHI.