Henri Palleis
ABSTRACT
The prototype Curve was developed at our lab and its basic effects on touch interaction as well as elementary applications were explored in the recent dissertation of Hennecke [3]. My work is concerned with the concretion of his initial findings. In particular I am interested in (1) contextualizing the device by exploring specific application scenarios and (2) finding adequate interaction models that allow people using the display's input and output capabilities effectively and conveniently. In my thesis I want to provide guidelines that help user interface designers to develop interaction techniques for multi-surface personal computing spaces that comprise both horizontal and vertical touchscreens and show potential benefits of a seamless connection between them (e.g. a curved display segment).
- Bartindale, T., Harrison, C., Olivier, P., Hudson, S.E. SurfaceMouse: supplementing multi-touch interaction with a virtual mouse. In Proc. TEI 2011. ACM Press (2011), 293--296. Google Scholar
Digital Library
- Bi, X., Grossman, T., Matejka, J., Fitzmaurice, G. Magic desk: bringing multi-touch surfaces into desktop work. In Proc. CHI 2011. ACM Press (2011), 25112520. Google ScholarDigital Library
- Hennecke, F. Effekte und Potenziale eines gebogenen interaktiven Displays. Dissertation at Ludwig-Maximilians-Universität (2014).Google Scholar
- Hennecke, F., Voelker, S., Schenk, M., Schaper, H., Borchers, J., Butz, A. Simplifying Remote Collaboration Through Spatial Mirroring. In Proc. INTERACT 2013. Springer (2013), 624--631.Google Scholar
- Lee, J., Olwal, A., Ishii, H., Boulanger, C. SpaceTop: integrating 2D and spatial 3D interactions in a see-through desktop environment. In Proc. CHI 2013. ACM Press (2013), 189--192. Google ScholarDigital Library
- Matejka, J., Grossman, T., Lo, J., Fitzmaurice, G. The design and evaluation of multi-finger mouse emulation techniques. In Proc. CHI 2009. ACM Press (2009), 1073--1082. Google ScholarDigital Library
- Matulic, F., Norrie, M.C. Pen and touch gestural environment for document editing on interactive tabletops. In Proc. ITS 2013. ACM Press (2013), 41--50. Google ScholarDigital Library
- Nacenta, M., Gutwin, C., Aliakseyeu, D., Subramanian, S. There and back again: cross-display object movement in multi-display environments. In Human-Computer Interaction 24 1/2 2009. 170--229.Google ScholarCross Ref
- Palleis, H., Hussmann, H. Towards understanding spontaneous interaction on curved displays. In Proc. CHI 2014 Extended Abstracts, ACM Press (2014), 20652070. Google ScholarDigital Library
- Plasencia, D. M., Joyce, E., Subramanian, S. MisTable: reach-through personal screens for tabletops. In Proc. CHI 2014, ACM Press (2014), 3493--3502. Google ScholarDigital Library
- Schwarz, T., Hennecke, F., Lauber, F. and Reiterer, H. Perspective+detail: a visualization technique for vertically curved displays. In Proc. AVI 2012. ACM Press (2012), 485--488. Google ScholarDigital Library
- Voelker, S., Wacharamanotham, C., Borchers, J. An Evaluation of State Switching Methods for Indirect Touch Systems. In Proc. CHI 2013, ACM Press (2013), 745--754. Google ScholarDigital Library
- Voelker, S., Sutter, C., Wang, L., Borchers, J. Understanding flicking on curved surfaces. In Proc. CHI 2012, ACM Press (2012), 189--198. Google ScholarDigital Library
- Weiss, M., Voelker, S., Sutter, C., Borchers, J. BendDesk: Dragging Across the Curve. In Proc. ITS 2010, ACM Press (2010), 1--10. Google ScholarDigital Library
- Wimmer, R., Hennecke, F., Schulz, F., Boring, S., Butz, A. and Hußmann, H. Curve: revisiting the digital desk. In Proc. NordiCHI 2010. ACM Press (2010), 561570. Google ScholarDigital Library
Index Terms
- Towards an Interaction Model for Multi-Surface Personal Computing Spaces
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