ABSTRACT
We present SurfaceMouse, a virtual mouse for multi-touch surface computing. Although moving away from the direct touch manipulation paradigm, our system brings many sig-nificant benefits seen in absolute clutched devices to sur-face computing. Features include high and variable control device gains, several degrees of freedom in a single hand gesture, ability to target small GUI items, and a familiar method for reaching far areas of large displays. Importantly, this benefit is realized by leveraging what users already know and have tremendous experience with - physical mice. Results from our proof-of-concept evaluation reflect this; users were able to use and recognize our system with-out training or prompts. Being entirely virtual, Surface-Mouse can be implemented in existing systems with little more than a software update.
- Abednego, M., Lee, J., Moon, W., and Park, J. I-Grabber: expanding physical reach a large-display tabletop environment through the use of a virtual grabber. Proc. ITS '09. 61--64. Google ScholarDigital Library
- Albinsson, P. and Zhai, S. High precision touch screen interac-tion. Proc. CHI '03. 105--112. Google ScholarDigital Library
- Baudisch, P., Cutrell, E., Robbins, D., Czerwinski, M., Tadler, P. Bederson, B., and Zierlinger. A. Drag-and- Pop and Drag-and-Pick: Techniques for Accessing Remote Screen Content on Touch and Pen-operated Systems. Proc. Interact '03. 57--64.Google Scholar
- Benko, H., Wilson, A. D., and Baudisch, P. Precise Selection Techniques for Multi-Touch Screens. Proc. CHI '06. 1263--1272. Google ScholarDigital Library
- Echtler, F., Huber, M., and Klinker, G. Shadow tracking on multi-touch tables. Proc. AVI '08. 388--391. Google ScholarDigital Library
- Forlines, C., Wigdor, D., Shen, C., and Balakrishnan, R. Direct-touch vs. mouse input for tabletop displays. Proc. CHI '07. 647--656. Google ScholarDigital Library
- Han, J. Y. Low-cost multi-touch sensing through frustrated total internal reflection. Proc. UIST '05. 115--118. Google ScholarDigital Library
- Hartmann, B., Morris, M. R., Benko, H., and Wilson, A. D. Augmenting interactive tables with mice & keyboards. Proc. UIST '09. 149--152. Google ScholarDigital Library
- Holz, C. and Baudisch, P. The generalized perceived input point model and how to double touch accuracy by extracting finger-prints. Proc. CHI '10. 581--590. Google ScholarDigital Library
- Jackson, D., Bartindale, T., and Olivier, P. FiberBoard: com-pact multi-touch display using channeled light. Proc. ITS '09. 25--28. Google ScholarDigital Library
- Latulipe, C., Mann, S., Kaplan, C.S., & Clarke, C.L. symSpline: symmetric two-handed spline manipulation. Proc. CHI '06. 349--358. Google ScholarDigital Library
- Lepinski, J., Grossman, T., Fitzmaurice, G. The design and evaluation of multitouch marking menus. Proc. CHI'10. 2233--2242. Google ScholarDigital Library
- Matejka, J., Grossman, T., Lo, J., and Fitzmaurice, G. The design and evaluation of multi-finger mouse emulation tech-niques. Proc. CHI '09. 1073--1082. Google ScholarDigital Library
- Matsushita, N. and Rekimoto, J. HoloWall: designing a finger, hand, body, and object sensitive wall. Proc. UIST '97. 209--210. Google ScholarDigital Library
- Moscovich, T. and Hughes, J.F. Indirect mappings of multi-touch input using one and two hands. Proc. CHI '08. 1275--1284. Google ScholarDigital Library
- Nacenta, M. A., Sallam, S., Champoux, B., Subramanian, S., and Gutwin, C. Perspective cursor: perspective-based interac-tion for multi-display environments. Proc. CHI '06. 289--298. Google ScholarDigital Library
- Olwal, A., Feiner, S., and Heyman, S. Rubbing and tapping for precise and rapid selection on touch-screen displays. Proc. CHI '08. 295--304. Google ScholarDigital Library
- Rekimoto, J. SmartSkin: an infrastructure for freehand mani-pulation on interactive surfaces. Proc. CHI '02. 113--120. Google ScholarDigital Library
- Rosenberg, I. and Perlin, K. The UnMousePad: an interpolating multi-touch force-sensing input pad. Proc. SIGGRAPH '09. 1--9. Google ScholarDigital Library
- Sears, A., Shneiderman, B. High precision touchscreens: design strategies and comparisons with a mouse. International Journal of Man-Machine Studies, 34(4), April 1991, 593--613. Google ScholarDigital Library
- Shoemaker, G., Tang, A., and Booth, K. S. Shadow reaching: a new perspective on interaction for large displays. Proc. UIST '07. 53--56. Google ScholarDigital Library
- Villar, N., Izadi, S., Rosenfeld, D., Benko, H., Helmes, J., Wes-thues, J., Hodges, S., Ofek, E., Butler, A., Cao, X., and Chen, B. Mouse 2.0: multi-touch meets the mouse. Proc. UIST '09. 33--42. Google ScholarDigital Library
- Vogel, D. and Baudisch, P. Shift: a technique for operating pen-based interfaces using touch. Proc. CHI '07. 657--666. Google ScholarDigital Library
- Wang, F. and Ren, X. Empirical evaluation for finger input properties multi-touch interaction. Proc. CHI '09. 1063--1072. Google ScholarDigital Library
- Wu, M. and Balakrishnan, R. Multi-Finger and Whole Hand Gestural Interaction Techniques for Multi-User Tabletop Dis-plays. Proc. UIST '03. 193--202. Google ScholarDigital Library
Index Terms
- SurfaceMouse: supplementing multi-touch interaction with a virtual mouse
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