Tactile Perception by Electrovibration

This book explains the mechanisms underpinning the tactile perception of electrovibration and lays the groundwork for delivering realistic haptic feedback on touchscreens via this method. Effective utilization of electrovibration can only be accomplished by simultaneously investigating both the physical and perceptual aspects of the finger-touchscreen interaction. Towards this goal, present work blends the available knowledge on electromechanical properties of the human finger and human tactile perception with the results of new psychophysical experiments and physical measurements. By following such an approach that combines both theoretical and experimental information, the study proposes new methods and insights on generating realistic haptic effects, such as textures and edges on these displays. Besides, state-of-the-art research on the field is reviewed, and future work is discussed. The presented interdisciplinary methods and insights can interest students, broad communities ofhaptics, neuroscience, engineering, physics, and cognitive sciences, as well as user-interaction experts and product designers from the industry.

Includes the first and most comprehensive research on tactile perception by electrovibration to date Explains potential perceptual and physical mechanisms responsible for haptic effects generated on electrovibration displays Proposes new methods to deliver realistic texture feeling by electrovibration and gives insights on prospective future steps for delivering rich, realistic, and controllable haptic sensations on touchscreens

Autorentext
Yasemin Vardar is currently a Postdoctoral Researcher in the Haptic Intelligence Department of the Max Planck Institute for Intelligent Systems. She is joining the Cognitive Robotics Department of the Delft University of Technology as an Assistant Professor in September 2020. She earned her Ph.D. in Mechanical Engineering from Koç University in 2018, her M.Sc. from in Systems and Control from the Eindhoven University of Technology in 2012, and her B.Sc. in Mechatronics Engineering from Sabanci University in 2010. She worked as a Control Engineer at the Additive Manufacturing Department of TNO before her doctoral studies. Her research focuses on designing haptic devices and applications by considering the capabilities of human haptic perception. Yasemin has published her research at the top venues such as IEEE Transactions on Haptics and Frontiers in Neuroscience and has won prestigious awards, including the Eurohaptics Best Ph.D. Thesis Award in Haptics (2018) and TUBITAK Graduate Scholarship (2013)

Inhalt
Chapter 1. Introduction.- Chapter 2. Background.- Chapter 3. Effect of Waveform on Tactile Perception by Electrovibration.- Chapter 4. Effect of Masking on Tactile Perception by Electrovibration.- Chapter 5. Texture Rendering by Electrovibration.- Chapter 6. Roughness Perception of Virtual Gratings by Electrovibration.- Chapter 7. Conclusion and Future Directions.