骨传导超声的N1m振幅增长函数。

Tadashi Nishimura, Seiji Nakagawa, Akinori Yamashita, Takefumi Sakaguchi, Hiroshi Hosoi
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引用次数: 8

摘要

结论:N1m的生长提示骨传导超声与空气传导可听声中枢听觉加工的差异。目的:骨传导使人耳能够听到超声。尽管有许多研究,骨传导超声的感知机制尚未完全阐明。因此,本研究调查了人类的超声波感知,特别是关于刺激强度或响度的影响。对象和方法:在心理声学动态范围内测量刺激水平对N1m振幅的影响。结果:30 kHz骨传导超声的动态范围(18.2 +/- 3.3 dB)明显小于1 kHz空气传导声的动态范围(85.9 +/- 11.9 dB)。随着刺激水平的增加,骨传导超声的N1m振幅比空气传导声的N1m振幅增长更快。虽然空气传导声的N1m振幅在不舒服响度(UCL)以下饱和时增长,但骨传导超声的N1m振幅在不舒服响度(UCL)以上继续增长。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
N1m amplitude growth function for bone-conducted ultrasound.

Conclusion: N1m growth indicates the differences in central auditory processing between bone-conducted ultrasound and air-conducted audible sound.

Objectives: Bone conduction enables ultrasound to be heard by the human ear. Despite many studies, the perceptual mechanism of bone-conducted ultrasound has not yet been clarified completely. Therefore, this study investigated the ultrasonic perception of humans, especially as regards the effects of stimulus intensity or loudness.

Subjects and methods: The effect of the stimulus level on N1m amplitude was measured over the psycho-acoustical dynamic range.

Results: The dynamic range for 30 kHz bone-conducted ultrasound (18.2 +/- 3.3 dB) was found to be significantly narrower than that for 1 kHz air-conducted sound (85.9 +/- 11.9 dB). As the stimulus level increased, the N1m amplitude in response to bone-conducted ultrasound grew faster than that to air-conducted sound. Although the growth of the N1m amplitude for air-conducted sound saturated below the uncomfortable loudness level (UCL), that for bone-conducted ultrasound continued to grow above the UCL.

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