We can pass through the wall gap: aperture passage perception via vibration stimuli generated from distance variation

International Conference on Quality Control by Artificial Vision Pub Date : 2023-07-28 DOI:10.1117/12.2692384

Shinichiro Morita, Yuki Kikuchi, Akira Saeki, I. Endo, Harumi Kobayashi, N. Mukawa, Akio Nakamura

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Abstract

We have been developing a helmet-type spatial perception support system that provides the user with vibration stimuli in response to the distance variation to an obstacle. The purpose of this research is set to propose a method for generating vibration stimuli that appropriately represent two environmental elements, walls and apertures, and verify its effectiveness for the aperture passage perception. The five vibro-motors are positioned at directional angles of 0 degree in front, 30 and 60 degrees to left and right, and generate vibration stimuli of an intensity calculated by assigning appropriate damping weights. We set the distance-dependent damping weights separately for each directional angle in the calculation of the vibration intensity to be generated for each motor. Experimental results demonstrate that the subjects were able to pass through the aperture in approximately 91 % of trials. This suggests that the developed system and the proposed vibration stimuli generation method are effective in perceiving space from the vibration stimuli provided to the head.

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我们可以通过墙体间隙:孔径通道感知通过距离变化产生的振动刺激

我们一直在开发一种头盔式空间感知支持系统，该系统为用户提供振动刺激，以响应与障碍物的距离变化。本研究的目的是提出一种产生振动刺激的方法，该方法可以适当地代表两种环境要素，墙壁和孔径，并验证其对孔径通道感知的有效性。5个振动马达分别以0度、30度和60度的方向角左右定位，并通过分配适当的阻尼权重来计算振动刺激的强度。在计算每个电机产生的振动强度时，我们分别为每个方向角设置与距离相关的阻尼权重。实验结果表明，在约91%的试验中，受试者能够通过该孔径。这表明所开发的系统和提出的振动刺激产生方法在从提供给头部的振动刺激感知空间方面是有效的。

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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International Conference on Quality Control by Artificial Vision

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