Head tilting for interaction in mobile contexts

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Head tilting for interaction in mobile contexts

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ACM International Conference Proceeding Series archive
Proceedings of the 11th International Conference on Human-Computer Interaction with Mobile Devices and Services table of contents

Bonn, Germany

SESSION: Gesture-based interaction table of contents

Article No. 6

Year of Publication: 2009

ISBN:978-1-60558-281-8

Authors

Andrew Crossan	University of Glasgow, Glasgow, UK
Mark McGill	University of Glasgow, Glasgow, UK
Stephen Brewster	University of Glasgow, Glasgow, UK
Roderick Murray-Smith	University of Glasgow, Glasgow, UK

Sponsors

SIGCHI : Specialist Interest Group in Computer-Human Interaction of the ACM
SIGMOBILE: ACM Special Interest Group on Mobility of Systems, Users, Data and Computing

Publisher

ACM New York, NY, USA

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ABSTRACT

Developing interfaces for mobile situations requires that devices are useable on the move. Here, we explore head tilting as an input technique to allow a user to interact with a mobile device 'hands free'. A Fitts' Law style evaluation is described where a user acquires targets, moving the cursor by head tilt. We explore d position and velocity control cursor mechanisms in both static and mobile situations to see which provided the best level of performance. Results show that participants could successfully acquire targets using head tilting. Position control was shown to be si gnificantly faster and more accurate in a static context, but exhi bited significantly poorer accuracy and longer target acquisition times when the user was on the move. We further demonstrate how analysis of user's gait shows consistent targeting biases at different stages in the gait cycle.

REFERENCES

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	1	Accot, J. and Zhai, S. Refining Fitts' law models for bivariate pointing. in Proceedings of ACM CHI. 2003. Fort Lauderdale, Florida: ACM Press, 193--200.
	2	Balakrishnan, R. and MacKenzie, I. S. Performance Differences in the Fingers, Wrist, and Forearm in Computer Input Control. in Proceedings of ACM CHI. 1997. Atlanta Georgia, USA: ACM Press, 303--310.
	3	Barreto, A., Scargle, S., and Adjouadi, M. Hands-off human-computer interfaces for individuals with severe motor disabilities in Proceedings of the HCI International '99 (the 8th International Conference on Human -Computer Interaction) on Human-Computer Interaction: Communication, Cooperation, and Application Design-Volume 2. 1999 ACM Press, 970--974.
	4	Brewster, S. A., Overcoming the lack of screen space on mobile computers. Personal and Ubiquitous Computing, 2002. 6(3): p. 188--205.
	5	Brewster, S. A., Lumsden, J., Bell, M., Hall, M., and Tasker, S. Multimodal 'Eyes-Free' Interaction Techniques for Wearable Devices. In Proceedings of ACM CHI. 2003 Florida, USA: ACM, 463--480.
	6	Costanza, E., Inverso, S. A., and Allen, R., Toward subtle intimate interfaces for mobile devices using an EMG controller. in Proceedings of the ACM CHI. 2005 Portland, Oregon, USA. p. 481--489.
	7	Crossan, A., Murray-Smith, R., Brewster, S., and Musizza, B., Instrumented Usability Analysis for Mobile Devices. in Handbook of Mobile HCI. 2007, The Ideas Group Inc.
	8	Crossan, A., Williamson, J., Brewster, S., and Murray-Smith, R., Wrist Rotation for Interaction in Mobile Contexts. in the Proceedings of Mobile HCI. 2008, ACM Press: Amsterdam, Netherlands.
	9	Eslambolchilar, P. and Murray-Smith, R., Control centric approach in designing scrolling and zooming user interfaces. International Journal of Human-Computer Studies, 2008. 66(12): p. 838--856.
	10	Fitts, P. M., The information capacity of the human motor system in controlling the amplitude of movement. Journal of Experimental Psychology, 1954. 47(6): p. 381--391.
	11	Hinckley, K., Pierce, J., and Horvitz, E. Sensing Techniques for Mobile Interaction. Proceedings of ACM UIST. 200091-100.
	12	Hoggan, E., Crossan, A., Brewster, S., and Kaaresoja, T., Audio or Tactile Feedback: Which Modality When?, in Accepted for publication in ACM CHI. 2009 Boston, USA.
	13	Jagacinski, R. and Monk, D., Fitts' law in two dimensions with hand and head movements. Journal of Motor Behavior, 1985. 17: p. 77--95.
	14	Linjama, J. and Kaaresoja, T. Novel, minimalist haptic gesture interaction for mobile devices. in Proceedings of the third Nordic conference on Human-Computer Interaction. 2004. Tampere, Finland: ACM International Conference Proceeding Series, 457--458.
	15	LoPresti, E., Brienza, D. M., Angelo, J., Gilbertson, L., and Sakai, J. Neck range of motion and use of computer head controls. in Proceedings of the fourth international ACM conference on Assistive technologies ASSETS. 2000. Arlington, Virginia, USA: ACM Press, 121--128.
	16	MacKenzie, I. S., Fitts' law as a research and design tool in human-computer interaction. Human-Computer Interaction, 1992. 7: p. 91--139.
	17	MacKenzie, I. S. and Isokoski, P., Fitts' throughput and the speed-accuracy tradeoff., in Proceedings of the ACM Conference on Human Factors in Computing Systems -- CHI 2008. 2008, New York: ACM.
	18	MacKenzie, I. S., Kauppinen, T., and SilfVerberg, M. Accuracy Measures for Evaluating Computer Pointing Devices, in Proceedings of the ACM CHI. 2001: ACM Press, 9--16.
	19	Mäntyjärvi, J., Kela, J., Korpipää, P., and Kallio, S. Enabling fast and effortless customisation in accele rometer based gesture interaction. in Proceedings of the 3rd international conference on Mobile and ubiquitous multimedia. 2004: ACM, 25--31.
	20	Marentakis, G. N. and Brewster, S. A. Effects of Feedback, Mobility and Index of Difficulty on Deictic Spatial Audio Target Acquisition in the Horizontal Plane. In Proceedings of ACM CHI. 2006. Montreal, Canada: ACM Press Addison-Wesley, 359--368.
	21	Morency, L. and Darrell, T. Head gesture recognition in intelligent interfaces: the role of context in improving recognition. In Proceedings of the 11th International Conference on intelligent User interfaces. 2006. Sydney, Australia: ACM, 32--38.
	22	Oakley, I. and O'Modhrain, M. Tilt to scroll: evaluating a motion based vibrotactile mobile interface. in Proceedings of World Haptics. 2005: IEEE, 40--49.
	23	Oakley, I. and Park, J. A motion-based marking menu system. in Extended Abstracts of ACM CHI. 2007. San Jose, CA: ACM.
	24	Partridge, K., Chatterjee, S., Sazawal, V., Borriello, G., and Want, R. TiltType: Accelerometer-Supported Text Entry for Very Small Devices. Proceedings of UIST. 2002.
	25	Pikovsky, A., Rosenblum, M., and Kurths, J., Synchronization: A universal concept in nonlinear sciences. 2001: Cambridge University Press.
	26	Pirhonen, A., Brewster, S. A., and Holguin, C. Gestural and Audio Metaphors as a Means of Control for Mobile Devices. In Proceedings of ACM CHI. 2002. Minneapolis: ACM Press Addison-Wesley, 291--198.
	27	Rekimoto, J. Tilting Operations for Small Screen Interfaces. In Proceedings of UIST. 1996167--168.
	28	Rekimoto, J. Gesturewrist and gesturepad: Unobtrusive wearable interaction devices. In Proceedings of Fifth International Symposium on Wearable Computers (ISWC '01). 2001.
	29	Rico, J. and Brewster, S. Gestures all around us: user differences in social acceptability perceptions of gesture based interfaces. to appear in extended proceedings of ACM Mobile HCI. 2009. Bonn, Germany.
	30	Ronkainen, S., Häkkilä, J., Kaleva, S., Colley, A., and Linjama, J. Tap input as an embedded interaction method for mobile devices. in Proceedings of the 1st international conference on Tangible and embedded interaction. 2007. Baton Rouge, Louisiana: ACM, 263--270.
	31	Williamson, J., Murray-Smith, R., and Hughes, S. Shoogle: Multimodal Excitatory Interaction on Mobile Devices. in Proceedings of ACM CHI. 2007. San Jose.
	32	Williamson, J., Murray-Smith, R., and Paisley, A. M. Dyanmics and Probabilistic Text Entry. in Proceedings of the Hamilton Summer School on Switching and Learning in Feedback systems. 2005: Springer-Verlag, Lecture Notes in Computing Science, Vol. 3355, 333--342
	33	Zhai, S. and Kristensson, P. Shorthand writing on stylus keyboard. in Proceedings of ACM CHI. 2003. Florida, USA: ACM, 97--104.
	34	Zhai, S., Milgram, P., and Buxton, W. The Influence of Muscle Groups on Performance of Multiple Degree-of-Freedom Input. in Proceedings of ACM CHI. 1996. Vancouver, BC, Canada: ACM Press, 308--315.