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Compliance display using a tilting-plate tactile feedback device

Seiedmuhammad Yazdian, Andrew J. Doxon, David E. Johnson, Hong Z. Tan, William R. Provancher

Year
2014
Citations
18

Abstract

This paper presents a tactile display device for replicating compliance sensation when interacting with deformable and non-deformable compliant objects in a virtual environment. Two small tilting plates approximately reproduce surface deformations of a compliant object. In addition to tactile information, kinesthetic information is rendered through a modified haptic paddle force feedback device. The tilting plates are moved in conjunction with the measured position of the user’s finger as they pressed into the virtual surface. In a psychophysical experiment, we evaluated the effect of adding tilting motion of the device’s actuated plates on the perceived compliance of a virtual surface with a kinesthetic stiffness of 60 N/mm. The experiment results indicate that tilting rates of 5, 10, and 20 deg/cm reduced the perceived stiffness of the surface by 3, 9, and 17 N/m, respectively. The advantages of the new device include its light-weight, low-cost, and simple design. These device features make it practical to integrate this compliance display with user interfaces for applications such as video games or even robotic surgery.

Keywords

Haptic technologyKinesthetic learningComputer scienceVirtual imageStiffnessComputer visionCompliance (psychology)Object (grammar)Artificial intelligenceComputer graphics (images)

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