Pinching Tactile Display: A Cloth that Changes Tactile Sensation by Electrostatic Adsorption

TL;DR

This paper introduces a conductive cloth that dynamically alters tactile sensations via electrostatic adsorption, enabling realistic, uniform, and flexible tactile feedback for fabrics in VR and telepresence applications.

Contribution

It presents a novel pinching tactile display using electrostatic control to generate dynamic tactile sensations on fabric without compromising its softness.

Findings

Able to generate various tactile sensations by adjusting voltage and frequency.

Maintains fabric's flexibility and softness during tactile stimulation.

Provides uniform tactile feedback across the entire fabric surface.

Abstract

Haptic displays play an important role in enhancing the sense of presence in VR and telepresence. Displaying the tactile properties of fabrics has potential in the fashion industry, but there are difficulties in dynamically displaying different types of tactile sensations while maintaining their flexible properties. The vibrotactile stimulation of fabrics is an important element in the tactile properties of fabrics, as it greatly affects the way a garment feels when rubbed against the skin. To dynamically change the vibrotactile stimuli, many studies have used mechanical actuators. However, when combined with fabric, the soft properties of the fabric are compromised by the stiffness of the actuator. In addition, because the vibration generated by such actuators is applied to a single point, it is not possible to provide a uniform tactile sensation over the entire surface of the fabric, resulting in an uneven tactile sensation. In this study, we propose a Pinching Tactile Display: a conductive cloth that changes the tactile sensation by controlling electrostatic adsorption. By controlling the voltage and frequency applied to the conductive cloth, different tactile sensations can be dynamically generated. This makes it possible to create a tactile device in which tactile sensations are applied to the entire fabric while maintaining the thin and soft characteristics of the fabric. As a result, users could experiment with tactile sensations by picking up and rubbing the fabric in the same way they normally touch it. This mechanism has the potential for dynamic tactile transformation of soft materials.