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Biomechanically Optimized Distributed Tactile Transducer Based on Lateral Skin Deformation

Haptics Laboratory, Center for Intelligent Machines, McGill University, Montréal, Canada

^* To whom correspondence should be addressed. E-mail: qi.wang{at}bme.gatech.edu.

	Abstract

In this paper we describe a tactile transducer device that is optimized from biomechanical data and that has a compact, yet modular design. The tactile transducer comprises a 6 x 10 piezoelectric bimorph actuator array with a spatial resolution of 1.8 mm x 1.2 mm and has a wide temporal bandwidth. The actuator mounting method was improved from a conventional cantilever method to a dual-pinned method, giving the actuator the ability to deform the glabrous skin maximally during laterotactile stimulation. The results were validated by asking subjects to detect tactile features under a wide range of operating conditions. The tactile display device is modular, makes use of ordinary fabrication methods, and can be assembled and dismantled in a short time for debugging and maintenance. It weighs 60 g, it is self-contained in a 150 cm³ volume and may be interfaced to most computers, provided that two analog outputs and six digital I/O lines are available. Psychophysical experiments were carried out to assess its effectiveness in rendering virtual tactile features.

First published on August 14, 2009
The International Journal of Robotics Research 2009, doi:10.1177/0278364909345289


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