Jan Richter
ABSTRACT
This paper presents a new form of remote active tangible interactions built with the Display-based Measurement and Control System. A prototype system was constructed to demonstrate the concepts of coupled remote tangible objects on rear projected tabletop displays. A user evaluation measuring social presence for two users performing a furniture placement task was performed, to determine a difference between this new system and a traditional mouse.
- Biocca F, Harms C, and Gregg J. The Networked Minds Measure of Social Presence: Pilot Test of the Factor Structure and Concurrent Validity. 4th annual International Workshop on Presence, (2001).Google Scholar
- Brave S, Ishii H, and Dahley A. Tangible interfaces for remote collaboration and communication. Proc. of the ACM Conference on Computer Supported Cooperative Work, (1998). Google ScholarDigital Library
- Byun J-H and Kim M-S. Tangible interaction: A new approach to customer participatory design. 6th Asian Design International Conference, (2003).Google Scholar
- Chen F, et al. ViCAT: Visualisation and Interaction on a collaborative access table. First IEEE international workshop on Horizontal interactive human-computer systems, (2006), 59--60. Google ScholarDigital Library
- Everitt KM, et al. Two worlds apart: Bridging the gap between physical and virtual media for distributed design collaboration. SIGCHI conference on Human factors in computing systems ACM Press, (2002). Google ScholarDigital Library
- Fitzmaurice G, Ishii H, and Buxton W. Bricks: laying the foundations for graspable user interfaces. CHI 1995, (1995). Google ScholarDigital Library
- Hauber J, et al. Social presence in two- and three-dimensional videoconferencing. 8th Annual International Workshop on Presence, (2005), 189--198.Google Scholar
- Kojima M, et al. Augmented Coliseum: An Augmented Game Environment with Small Vehicles. First IEEE International Workshop on Horizontal Interactive Human-Computer Systems, 2006. TableTop 2006. IEEE, (2006), 3--8. Google ScholarDigital Library
- Pangaro G, Maynes-Aminzade D, and Ishii H. The Actuated Workbench: Computer-controlled actuation in tabletop tangible interfaces. Symposium on User interface software and technology (UIST), (2002), 181--190. Google ScholarDigital Library
- Rauterberg M, et al. BUILD-IT: a computer vision-based interaction technique for a planning tool Springer-Verlag London, (1997), 303.Google Scholar
- Reynaldo J and Santos A. Cronbach's Alpha: A tool for assessing the reliability of scales. Journal of Extension 1999; 37, 2:(1999).Google Scholar
- Rosenfeld D, et al. Physical objects as bidirectional user interface elements. IEEE Computer Graphics and Applications 2004; 24, 1:(2004). Google ScholarDigital Library
- Sugimoto M and Inami M, Display-based Tracking & Control System (Projector-based Tracking System). 2006: Tokyo.Google Scholar
- Ullmer B and Ishii H. The MetaDESK: Models and prototypes for tangible user interfaces. UIST '97 ACM, New York, NY, USA, (1997), 223--232. Google ScholarDigital Library
Index Terms
- Remote active tangible interactions
Recommendations
Tangible bots: interaction with active tangibles in tabletop interfaces
CHI '11: Proceedings of the SIGCHI Conference on Human Factors in Computing SystemsWe present interaction techniques for tangible tabletop interfaces that use active, motorized tangibles, what we call Tangible Bots. Tangible Bots can reflect changes in the digital model and assist users by haptic feedback, by correcting errors, by ...
Tangible remote controllers for wall-size displays
CHI '12: Proceedings of the SIGCHI Conference on Human Factors in Computing SystemsWe explore the use of customizable tangible remote controllers for interacting with wall-size displays. Such controllers are especially suited to visual exploration tasks where users need to move to see details of complex visualizations. In addition, we ...
Embodied metaphors in tangible interaction design
For centuries, learning and development has been supported by physical activity and manipulating physical objects. With the introduction of embedded technologies, opportunities for employing tangible or embodied interaction for learning and development ...
Comments