Abstract
Emerging above-surface technology is an opportunity to exploit interaction spaces above a device’s surface; however, the resulting loss of the proprioceptive feedback available from on-surface interactions degrades the user’s sense of control and precision. We asked whether a pseudohaptic illusion (PHI) could help: a sense of force in the absence of actual contact, induced by manipulating the relation of body motion to graphical and auditory cues.
To examine the value of above-surface PHIs, we used a zooming microtask, because finger occlusion impedes current implementations on small displays such as smartwatches. In a qualitative study (N = 12), we were able to trigger a physical illusion most often described as elasticity in 92% of participants through physical control/graphical display (C/D) manipulation, and that audio cues significantly strengthened the illusion. Participants experiencing this PHI reported improved sense of control when zooming, and found the interaction’s physicality natural.
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Acknowledgments
This study was funded by Qualcomm and NSERC, carried out under UBC Ethics #H16-01549. We thank our UBC ECE collaborators Prof. John Madden and Mirza Saquib, and our many helpful colleagues in SPIN lab and the Designing for People research network.
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Ustek, D., Chow, K., Zhang, H., MacLean, K. (2018). A Multimodal Illusion of Force Improves Control Perception in Above-Surface Gesture: Elastic Zed-Zoom. In: Prattichizzo, D., Shinoda, H., Tan, H., Ruffaldi, E., Frisoli, A. (eds) Haptics: Science, Technology, and Applications. EuroHaptics 2018. Lecture Notes in Computer Science(), vol 10893. Springer, Cham. https://doi.org/10.1007/978-3-319-93445-7_26
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