High fidelity multi finger haptic display

First Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems. World Haptics Conference Pub Date : 2005-03-18 DOI:10.1109/WHC.2005.74

R. Leuschke, Elizabeth K. T. Kurihara, J. Dosher, B. Hannaford

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引用次数: 24

Abstract

The fingertip haptic display (FHD) is a five bar mechanism developed at the University of Washington for haptic interaction with the fingertip of the operator. The two-degree-of-freedom mechanism was computer optimized to accommodate the workspace of the human finger inflexion/extension with a high degree of kinematic isotropy. Direct drive with frictionless flat-coil actuators ensures low torque ripple, inertia, and static friction in the actuation system for high fidelity haptic rendering. This paper describes a redesign of the position sensing arrangement, I/O hardware and software as well as thermal modelling to improve performance and stack four devices for use with index, middle, ring and little finger in a multifinger haptic display. Some results of the initial performance evaluation are given. Promising applications are expected to include palpation training for medical personnel, museum displays enabling the visitor to "touch" art, as well as psychophysics research: exploring the limits of human touch perception.

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高保真多指触觉显示

指尖触觉显示器(FHD)是华盛顿大学开发的一种五杆机构，用于与操作员的指尖进行触觉交互。对二自由度机构进行了计算机优化，以适应人类手指弯曲/伸展的工作空间，并具有高度的运动各向同性。直接驱动与无摩擦的平面线圈执行器确保低扭矩脉动，惯性和静摩擦在致动系统高保真触觉渲染。本文介绍了重新设计位置传感装置、I/O硬件和软件以及热建模，以提高性能，并在多指触觉显示器中堆叠四个设备，用于食指、中指、无名指和小指。给出了初步性能评价的一些结果。有前景的应用预计包括医疗人员的触诊培训，让参观者“触摸”艺术的博物馆展示，以及心理物理学研究:探索人类触觉感知的极限。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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First Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems. World Haptics Conference

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