Knobology 2.0:Giving shape to the haptic force feedback of interactive knobs

Autor:	Miguel Bruns, Majken Kirkegård Rasmussen, Anke van Oosterhout, Eve Hoggan
Jazyk:	angličtina
Rok vydání:	2018
Předmět:	Detent business.industry Computer science 05 social sciences Work (physics) Dynamic interface Haptic force feedback 020207 software engineering 02 engineering and technology Rotation Physical control knob Affordance Acceleration 0202 electrical engineering electronic engineering information engineering 0501 psychology and cognitive sciences Computer vision Artificial intelligence business 050107 human factors Haptic technology ComputingMethodologies_COMPUTERGRAPHICS
Zdroj:	Van Oosterhout, A, Rasmussen, M K, Hoggan, E & Bruns, M 2018, Knobology 2.0 : Giving shape to the haptic force feedback of interactive knobs . in UIST 2018 Adjunct-Adjunct Publication of the 31st Annual ACM Symposium on User Interface Software and Technology . Association for Computing Machinery, Inc., UIST 2018 Adjunct-Adjunct Publication of the 31st Annual ACM Symposium on User Interface Software and Technology, pp. 197-199, 31st Annual ACM Symposium on User Interface Software and Technology, UIST 2018, Berlin, Germany, 14/10/2018 . https://doi.org/10.1145/3266037.3271649 van Oosterhout, A, Rasmussen, M K, Hoggan, E & Alonso, M B 2018, Knobology 2.0: Giving Shape to the Haptic Force Feedback of Interactive Knobs . in The 31st Annual ACM Symposium on User Interface Software and Technology Adjunct Proceedings : UIST '18 Adjunct . Association for Computing Machinery, pp. 197-199, The 31st Annual ACM Symposium, Berlin, Germany, 14/10/2018 . https://doi.org/10.1145/3266037.3271649 UIST (Adjunct Volume)
DOI:	10.1145/3266037.3271649
Popis:	We present six rotary knobs, each with a distinct shape, that provide haptic force feedback on rotation. The knob shapes were evaluated in relation to twelve haptic feedback stimuli. The stimuli were designed as a combination of the most relevant perceptual parameters of force feedback; acceleration, friction, detent amplitude and spacing. The results indicate that there is a relationship between the shape of a knob and its haptic feedback. The perceived functionality can be dynamically altered by changing its shape and haptic feedback. This work serves as basis for the design of dynamic interface controls that can adapt their shape and haptic feel to the content that is controlled. In our demonstration, we show the six distinct knobs shapes with the different haptic feedback stimuli. Attendees can experience the interaction with the different knob shapes in relation the stimuli and design stimuli with a graphical editor.
Databáze:	OpenAIRE
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