2021
DOI: 10.31590/ejosat.1014803
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Towards Localized Tactile Feedback on Touch Surfaces: Finite Element Analysis of a Vibrating Touch Screen Actuated by Piezo Patches

Abstract: Surface haptics technologies offer an augmented user experience by providing a unique and distinctive interaction between the finger and touchscreen. In this study, we focus on a touch screen design to display vibrotactile tactile feedback to the user through piezo patches located on its surface. We investigated the effects of boundary conditions, piezo configurations, and materials of the touch surface and piezo patches that will achieve the highest deformation on the touch surface, considering the most sensi… Show more

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“…Such mechanical simulation models of large TSDs incorporating vibrotactile actuators also allow us to extend one haptic rendering method to different materials and actuators and find ways of better localization. Finite element modeling of touch surfaces has been discussed with piezo actuators in [28], [29], [30], and [31]. These finite element-based studies focus on generating maximum vibration amplitude on the touch surface rather than localized vibrotactile feedback.…”
Section: Introductionmentioning
confidence: 99%
“…Such mechanical simulation models of large TSDs incorporating vibrotactile actuators also allow us to extend one haptic rendering method to different materials and actuators and find ways of better localization. Finite element modeling of touch surfaces has been discussed with piezo actuators in [28], [29], [30], and [31]. These finite element-based studies focus on generating maximum vibration amplitude on the touch surface rather than localized vibrotactile feedback.…”
Section: Introductionmentioning
confidence: 99%