Vocal responses to frequency modulated composite sinewaves via auditory and vibrotactile pathways

2015 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP) Pub Date : 2015-04-19 DOI:10.1109/ICASSP.2015.7178793

Xiaozhen Wang, K. Honda, J. Dang, Jianguo Wei

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引用次数: 2

Abstract

Feedback control mechanisms for speaking have been examined using the transformed auditory feedback (TAF) technique. Previous studies have shown that speakers demonstrate fundamental frequency (F0) changes when they monitor their voice with artificial alterations of F0. However, those studies underestimate the role of vibrotactile information involved in feedback F0 control. This pilot study aims at exploring whether and how vibrotactile information from the larynx influences vowel F0. Participants in our experiment were asked to sustain vowel with their F0 adjusted to composite sinewave stimuli, which were given via auditory and vibrotactile channels using a headset on the ears or a bone-conduction transducer on the larynx. Results revealed the greater compensatory responses to combined vibrotactile-auditory stimuli than to the responses to auditory-only stimuli. The effect of vibrotactile stimuli on feedback F0 adjustment was also observed with the shorter latency of the responses.

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通过听觉和振动触觉途径对频率调制的复合正弦波的声音反应

使用转换听觉反馈(TAF)技术研究了说话的反馈控制机制。先前的研究表明，当说话者通过人为改变F0来监控自己的声音时，他们会表现出基频(F0)的变化。然而，这些研究低估了振动触觉信息在反馈F0控制中的作用。本初步研究旨在探讨来自喉部的振动触觉信息是否以及如何影响元音F0。在我们的实验中，参与者被要求在F0调整到复合正弦波刺激的情况下维持元音，这些刺激是通过听觉和振动触觉通道给予的，使用耳上的耳机或喉上的骨传导传感器。结果表明，震动触觉-听觉联合刺激的代偿反应比单纯听觉刺激的代偿反应更大。振动触觉刺激对反馈F0调节的影响也具有较短的反应潜伏期。

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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2015 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP)

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