FeelPen: A Haptic Stylus Displaying Multimodal Texture Feels on Touchscreens

Abstract: <p>The ever-emerging mobile market induced a blooming interest in stylus-based interactions. Most state-of-the-art styluses either provide no haptic feedback or only deliver one type of sensation, such as vibration or skin stretch. Improving these devices with display abilities of a palette of tactile feels can pave the way for rendering realistic surface sensations, resulting in more natural virtual experiences. However, integrating necessary actuators and sensors while keeping the compact form factor o… Show more

“…Relocated feedback has proven promising for several types of haptic interactions [8], particularly when using squeeze or shear forces as intelligible cues of contact and softness of virtual objects [9]- [11]. Of particular interest to us is the relocation of texture-induced vibrations, traditionally applied via a grasped stylus [12]- [14] or directly to the fingertip [15]- [17] to mimic the sensation of interacting with a textured surface. While the aforementioned works repeatedly demonstrate that people can identify distinct vibration patterns as different textures and are sensitive to changes in frequency, intensity, and spectral complexity, preliminary research [18] is still exploring whether such rich frequency information even remains intelligible when relocated away from the fingertip.…”

On the perceived realism of virtual textures rendered by a vibrotactile wearable ring display

“…Relocated feedback has proven promising for several types of haptic interactions [8], particularly when using squeeze or shear forces as intelligible cues of contact and softness of virtual objects [9]- [11]. Of particular interest to us is the relocation of texture-induced vibrations, traditionally applied via a grasped stylus [12]- [14] or directly to the fingertip [15]- [17] to mimic the sensation of interacting with a textured surface. While the aforementioned works repeatedly demonstrate that people can identify distinct vibration patterns as different textures and are sensitive to changes in frequency, intensity, and spectral complexity, preliminary research [18] is still exploring whether such rich frequency information even remains intelligible when relocated away from the fingertip.…”

On the perceived realism of virtual textures rendered by a vibrotactile wearable ring display

“…Relocated feedback has proven promising for several types of haptic interactions [8], particularly when using squeeze or shear forces as intelligible cues of contact and softness of virtual objects [9]- [11]. Of particular interest to us is the relocation of texture-induced vibrations, traditionally applied via a grasped stylus [12]- [14] or directly to the fingertip [15]- [17] to mimic the sensation of interacting with a textured surface. While the aforementioned works repeatedly demonstrate that people can identify distinct vibration patterns as different textures and are sensitive to changes in frequency, intensity, and spectral complexity, preliminary research [18] is still exploring whether such rich frequency information even remains intelligible when relocated away from the fingertip.…”

On the perceived realism of virtual textures rendered by a vibrotactile wearable ring display