Gap Detection in Pairs of Ultrasound Mid-air Vibrotactile Stimuli

IF 1.9 4区 计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING
Thomas Howard, Karina Driller, William Frier, Claudio Pacchierotti, Maud Marchal, Jessica Hartcher-O’Brien
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Abstract

Ultrasound mid-air haptic (UMH) devices are a novel tool for haptic feedback, capable of providing localized vibrotactile stimuli to users at a distance. UMH applications largely rely on generating tactile shape outlines on the users’ skin. Here we investigate how to achieve sensations of continuity or gaps within such two-dimensional curves by studying the perception of pairs of amplitude-modulated focused ultrasound stimuli. On the one hand, we aim to investigate perceptual effects that may arise from providing simultaneous UMH stimuli. On the other hand, we wish to provide perception-based rendering guidelines for generating continuous or discontinuous sensations of tactile shapes. Finally, we hope to contribute toward a measure of the perceptually achievable resolution of UMH interfaces. We performed a user study to identify how far apart two focal points need to be to elicit a perceptual experience of two distinct stimuli separated by a gap. Mean gap detection thresholds were found at 32.3-mm spacing between focal points, but a high within- and between-subject variability was observed. Pairs spaced below 15 mm were consistently (>95%) perceived as a single stimulus, while pairs spaced 45 mm apart were consistently (84%) perceived as two separate stimuli. To investigate the observed variability, we resort to acoustic simulations of the resulting pressure fields. These show a non-linear evolution of actual peak pressure spacing as a function of nominal focal point spacing. Beyond an initial threshold in spacing (between 15 and 18 mm), which we believe to be related to the perceived size of a focal point, the probability of detecting a gap between focal points appears to linearly increase with spacing. Our work highlights physical interactions and perceptual effects to consider when designing or investigating the perception of UMH shapes.

超声半空振动触觉刺激对间隙检测
超声半空触觉(UMH)设备是一种新颖的触觉反馈工具,能够为远距离用户提供局部振动触觉刺激。UMH应用主要依赖于在用户皮肤上生成触觉形状轮廓。在这里,我们研究如何通过研究对振幅调制聚焦超声刺激的感知来实现这种二维曲线内的连续性或间隙的感觉。一方面,我们的目标是研究同时提供UMH刺激可能产生的感知效应。另一方面,我们希望提供基于感知的渲染指南,用于生成触觉形状的连续或不连续感觉。最后,我们希望为UMH接口的感知可实现分辨率的测量做出贡献。我们进行了一项用户研究,以确定两个焦点之间的距离需要有多远,才能引起被间隙分隔的两个不同刺激的感知体验。平均间隙检测阈值在焦点间距32.3 mm处发现,但观察到受试者内部和受试者之间的高变异性。间隔小于15毫米的成对一致(95%)被认为是单一刺激,而间隔45毫米的成对一致(84%)被认为是两个单独的刺激。为了研究观察到的变化,我们采用声学模拟产生的压力场。这些显示了实际峰值压力间距作为标称焦点间距函数的非线性演化。超出初始阈值的间距(在15和18毫米之间),我们认为这与感知到的焦点大小有关,检测到焦点之间的间隙的概率似乎随着间距线性增加。我们的工作强调了在设计或研究UMH形状的感知时要考虑的物理相互作用和感知效应。
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来源期刊
ACM Transactions on Applied Perception
ACM Transactions on Applied Perception 工程技术-计算机:软件工程
CiteScore
3.70
自引率
0.00%
发文量
22
审稿时长
12 months
期刊介绍: ACM Transactions on Applied Perception (TAP) aims to strengthen the synergy between computer science and psychology/perception by publishing top quality papers that help to unify research in these fields. The journal publishes inter-disciplinary research of significant and lasting value in any topic area that spans both Computer Science and Perceptual Psychology. All papers must incorporate both perceptual and computer science components.
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