论文信息 - HUGO, a High-Resolution Tactile Emulator for Complex Surfaces

HUGO, a High-Resolution Tactile Emulator for Complex Surfaces

Many of our activities rely on tactile feedback perceived through mechanoreceptors in our skin. While visual and auditory devices provide immersive experiences, cutaneous feedback devices are typically limited in the range of sensations they provide and are hence usually used and tested on relatively simple synthetic surfaces. In this paper we demonstrate HUGO, a device designed in a human-centered process, triggering the mechanoreceptors sensitive to pressure, low-frequency vibrations, and high-frequency vibrations, enabling one to experience touch of surfaces “in-the-wild". The device is based on a parallel manipulator and a pin-array, that operate simultaneously at 200Hz and emulate coarse and fine geometrical features, respectively. The decomposition into coarse and fine features, alongside the high operation frequency, enable simulation of virtual surfaces. HUGO will be showcased in multiple applications such as social interactions, e-commerce and gaming to allow haptic interaction with real-world surfaces.

Lihi Zelnik-Manor | A. Wolf | Yair Herbst

[1] Hiroyuki Kajimoto,et al. Wearable tactile device using mechanical and electrical stimulation for fingertip interaction with virtual world , 2017, 2017 IEEE Virtual Reality (VR).

[2] Antonio Frisoli,et al. Wearable encounter-type haptic device with 2-DoF motion and vibration for presentation of friction , 2014, 2014 IEEE Haptics Symposium (HAPTICS).

[3] A. Landi. Human Hand Function , 2007 .

[4] R. Klatzky,et al. Hand movements: A window into haptic object recognition , 1987, Cognitive Psychology.

[5] K O Johnson,et al. Tactile spatial resolution. I. Two-point discrimination, gap detection, grating resolution, and letter recognition. , 1981, Journal of neurophysiology.

[6] Sho Sakurai,et al. Development of Finger-Mounted High-Density Pin-Array Haptic Display , 2020, IEEE Access.

[7] Eckehard Steinbach,et al. A Tactile Computer Mouse for the Display of Surface Material Properties , 2019, IEEE Transactions on Haptics.

[8] Claudio Pacchierotti,et al. A Three Revolute-Revolute-Spherical Wearable Fingertip Cutaneous Device for Stiffness Rendering , 2018, IEEE Transactions on Haptics.

[9] Yoji Yamada,et al. Psychophysical Dimensions of Tactile Perception of Textures , 2013, IEEE Transactions on Haptics.