Dynamics of tilt-based browsing on mobile devices
CHI '07 Extended Abstracts on Human Factors in Computing Systems
Multi-context photo browsing on mobile devices based on tilt dynamics
Proceedings of the 9th international conference on Human computer interaction with mobile devices and services
Usability engineering for mobile maps
Mobility '07 Proceedings of the 4th international conference on mobile technology, applications, and systems and the 1st international symposium on Computer human interaction in mobile technology
Wrist rotation for interaction in mobile contexts
Proceedings of the 10th international conference on Human computer interaction with mobile devices and services
Control centric approach in designing scrolling and zooming user interfaces
International Journal of Human-Computer Studies
Tilt techniques: investigating the dexterity of wrist-based input
Proceedings of the SIGCHI Conference on Human Factors in Computing Systems
Semi-automatic zooming for mobile map navigation
Proceedings of the 12th international conference on Human computer interaction with mobile devices and services
A survey of mobile phone sensing
IEEE Communications Magazine
Is tilt interaction better than keypad interaction for mobile map-based applications?
SAICSIT '10 Proceedings of the 2010 Annual Research Conference of the South African Institute of Computer Scientists and Information Technologists
Acquiring and pointing: an empirical study of pen-tilt-based interaction
Proceedings of the SIGCHI Conference on Human Factors in Computing Systems
IntelliTilt: an enhanced tilt interaction technique for mobile map-based applications
INTERACT'11 Proceedings of the 13th IFIP TC 13 international conference on Human-computer interaction - Volume Part II
Improving the controllability of tilt interaction for mobile map-based applications
International Journal of Human-Computer Studies
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Sensor-based interaction techniques relying on tilt gestures are increasingly being adopted in a wide range of mobile applications. Despite the recent increase in the availability of gyroscope sensors on mobile phones, most implementations of tilt interaction still rely on accelerometer input. Accelerometer sensors are susceptible to noise and also detect linear acceleration. This can lead to controllability problems, particularly when the user is mobile. This paper looks at how the fusion of accelerometer, gyroscope and digital compass sensor data impacts upon tilt interaction in a mobile map-based application. The results of an experiment comparing accelerometer-only tilt interaction with a sensor fusion approach are presented. The results show that while both the accelerometer and sensor fusion approaches performed well for seated tasks, the sensor fusion approach was shown to have advantages in terms of perceived controllability and efficiency while participants were walking.