Attracting Fingers with Waves
Potential Fields Using Active Lateral Forces Enhance Touch Interactions
Zhaochong Cai (TU Delft - Human-Robot Interaction)
D. Abbink (TU Delft - Human-Robot Interaction)
M. Wiertlewski (TU Delft - Human-Robot Interaction)
More Info
expand_more
Other than for strictly personal use, it is not permitted to download, forward or distribute the text or part of it, without the consent of the author(s) and/or copyright holder(s), unless the work is under an open content license such as Creative Commons.
Abstract
Touchscreens and touchpads offer intuitive interfaces but provide limited tactile feedback, usually just mechanical vibrations. These devices lack continuous feedback to guide users’ fingers toward specific directions. Recent innovations in surface haptic devices, however, leverage ultrasonic traveling waves to create active lateral forces on a bare fingertip. This paper investigates the effects and design possibilities of active forces feedback in touch interactions by rendering artificial potential fields on a touchpad. Three user studies revealed that: (1) users perceived attractive and repulsive fields as bumps and holes with similar detection thresholds; (2) step-wise force fields improved targeting by 22.9% compared to friction-only methods; and (3) active force fields effectively communicated directional cues to the users. Several applications were tested, with user feedback favoring this approach for its enhanced tactile experience, added enjoyment, realism, and ease of use.
help_outline