Title :
Surface Acoustic Wave (SAW) tactile display based on properties of mechanoreceptors
Author :
Nara, Takaaki ; Takasaki, M. ; Maeda, Taro ; Higuchi, Toshiro ; Ando, Shigeru ; Tachi, Susumu
Author_Institution :
Graduate Sch. of Eng., Tokyo Univ., Japan
Abstract :
The authors first analyze dynamic properties of rapidly adapting mechanoreceptors in order to derive a principle of tactile displays. It is shown that Meissner corpuscles with coiled axons and Pacinian corpuscles with layered lamellae are suited to detect equivoluminal distortion of skin. Combining these analyses with a model of a contact and a relative motion between an object and the skin, it is shown that a prerequisite for tactile displays is to generate sources of shear stress that can be spatially dispersed at the skin surface and temporally modulated with a stick-slip frequency determined by parameters of the object to be displayed. As a device that satisfies this prerequisite, we propose a tactile display using Surface Acoustic Waves (SAW). The roughness of the surface can be changed continuously by controlling the burst frequency of the SAW.
Keywords :
haptic interfaces; mechanoception; surface acoustic wave devices; tactile sensors; virtual reality; Meissner corpuscles; Pacinian corpuscles; SAW tactile display; Surface Acoustic Wave; burst frequency; coiled axons; dynamic properties; equivoluminal distortion; layered lamellae; mechanoreceptors; rapidly adapting mechanoreceptors; relative motion; shear stress; skin surface; stick-slip frequency; tactile displays; Acoustic waves; Displays; Frequency; Mechanical factors; Nerve fibers; Rough surfaces; Skin; Surface acoustic wave devices; Surface acoustic waves; Surface roughness;
Conference_Titel :
Virtual Reality, 2001. Proceedings. IEEE
Conference_Location :
Yokohama, Japan
Print_ISBN :
0-7695-0948-7
DOI :
10.1109/VR.2001.913765
