A fuzzy model relating vibrotactile signal characteristics to haptic sensory evaluations

2013 IEEE International Conference on Computational Intelligence and Virtual Environments for Measurement Systems and Applications (CIVEMSA) Pub Date : 2013-07-15 DOI:10.1109/CIVEMSA.2013.6617394

Liviu-Cristian Duţu, G. Mauris, P. Bolon, Stéphanie Dabic, J. Tissot

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引用次数: 7

Abstract

Nowadays tactile surfaces are slowly replacing the mechanical interfaces of our electronic devices, and the actual trend is toward a quasi-total touch interaction. This transition has however one important side effect, i.e the lack of feedback from the device, which in certain situations can be crucial. In order to overcome this, it has been suggested that feedback has to be delivered to the finger through vibrations that should be both detectable and comfortable. This paper aims to define a perception model for the sensory evaluations of the vibrotactile signals using fuzzy set theory. First of all, the hypothesis that haptic perception is strongly related to physical characteristics of the signals was evaluated and confirmed with a 93% correlation rate, based on psychophysical studies of the tactile sense. Secondly, using the previous analysis as a knowledge base we have implemented a fuzzy inference system which forecasts the preference values for vibrotactile signals. The preliminary results show that for 15 out of 18 signals, the preference is correctly predicted within a reasonable uncertainty interval.

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振动触觉信号特征与触觉感官评价的模糊模型

如今，触觉表面正在慢慢取代我们电子设备的机械界面，而实际的趋势是走向准全触摸交互。然而，这种转变有一个重要的副作用，即缺乏来自设备的反馈，这在某些情况下可能是至关重要的。为了克服这个问题，有人建议，必须通过既可检测又舒适的振动将反馈传递给手指。本文旨在利用模糊集理论建立一个振动触觉信号感官评价的感知模型。首先，基于触觉的心理物理研究，以93%的相关率评估并证实了触觉感知与信号的物理特征密切相关的假设。其次，在前人分析的基础上，我们实现了一个模糊推理系统来预测振动触觉信号的偏好值。初步结果表明，对18个信号中的15个，在合理的不确定区间内正确预测了偏好。

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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2013 IEEE International Conference on Computational Intelligence and Virtual Environments for Measurement Systems and Applications (CIVEMSA)

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