复杂垂直全身振动的强度感知

ASME 2018 Noise Control and Acoustics Division Session presented at INTERNOISE 2018 Pub Date : 2018-08-26 DOI:10.1115/NCAD2018-6144

Anna Schwendicke, Shuyue Cheng, Xudong Yu, M. Altinsoy

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引用次数: 0

摘要

全身振动是日常生活体验不可或缺的一部分。深入了解人类的振动感知是必要的，例如，对于多模态虚拟环境的设计以及汽车行业的舒适性评估。在本研究中，使用调幅信号和窄带噪声测量了阈值附近全身振动的强度感知。史蒂文斯指数的计算显示，在31.5 Hz和125 Hz之间的频率显著依赖，频率越高，史蒂文斯指数越低。调幅对强度感知没有影响。与正弦信号相比，窄带噪声的使用导致史蒂文斯指数之间的差异更大。由此得出结论，正弦信号实验的感知数据可以用来模拟调制信号的强度感知，但必须对噪声信号进行调整。

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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Intensity Perception for Complex Vertical Whole-Body Vibration

Whole-body vibrations are an integral part of daily life experience. A thorough understanding of human vibration perception is necessary, e.g., for both the design of multi-modal virtual environments as well as the evaluation of comfort in the automotive industry. In this study, intensity perception for whole-body vibrations near threshold has been measured using amplitude modulated signals as well as narrow band noises. Stevens’ exponents have been calculated showing a significant dependence on frequency between 31.5 Hz and 125 Hz with higher frequencies leading to lower Stevens’ exponents. Amplitude modulation does not have an effect on intensity perception. The use of narrow band noise leads to bigger differences among Stevens’ exponents compared to those of sinusoidal signals. It is concluded that perceptual data from experiments with sinusoidal signals can be used to model the intensity perception of modulated signals, but adjustments have to be made for noisy signals.

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ASME 2018 Noise Control and Acoustics Division Session presented at INTERNOISE 2018

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