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一种使用波场合成来模拟日常聆听条件的声音再现系统。

[A sound reproduction system using wave field synthesis to simulate everyday listening conditions].

作者信息

Weißgerber T

机构信息

Schwerpunkt Audiologische Akustik, Klinik für HNO-Heilkunde, Universitätsklinikum Frankfurt am Main, Theodor-Stern-Kai 7/Haus 8, 60590, Frankfurt/Main, Deutschland.

出版信息

HNO. 2019 Apr;67(4):265-271. doi: 10.1007/s00106-019-0635-5.

DOI:10.1007/s00106-019-0635-5
PMID:30859252
Abstract

BACKGROUND

Test procedures used in clinical routine are often not sufficiently accurate to evaluate the auditory benefit of hearing systems and the improvements brought by new signal preprocessing algorithms.

OBJECTIVE

The aim of the study was to realize and evaluate a sound reproduction system for simulation of everyday listening conditions.

MATERIALS AND METHODS

A sound reproduction system was developed using 128 loudspeakers. By appropriate superposition of the loudspeaker signals (so-called wave field synthesis), it is possible to create almost arbitrary everyday listening conditions in a reproducible laboratory setting. Auditory scenes can be changed in real time. The sound reproduction system was mechanically evaluated by measuring the sound field with a microphone array. To validate the system, speech reception thresholds (SRT) were measured in bilateral cochlear implant (CI) users in moving and diffuse noise conditions. Furthermore, the impact of different types of directional microphones on speech perception was assessed.

RESULTS

With a moving noise source in the dorsal half-space, CI users showed significant SRT improvements by using directional microphones with higher directional sensitivity (2.5 dB improvement) as well as with adaptive directional sensitivity (8.5 dB). The benefit of adaptive directional microphones is reduced in environments with diffuse noise.

CONCLUSION

Wave field synthesis is a useful tool to simulate everyday listening conditions in a reproducible laboratory environment. This technique can complement established clinical methods to assess the benefit of a hearing device fitting or of signal preprocessing algorithms in dynamic listening conditions.

摘要

背景

临床常规使用的测试程序往往不够准确,无法评估听力系统的听觉益处以及新信号预处理算法带来的改善。

目的

本研究的目的是实现并评估一种用于模拟日常聆听条件的声音再现系统。

材料与方法

使用128个扬声器开发了一种声音再现系统。通过对扬声器信号进行适当叠加(所谓的波场合成),可以在可重现的实验室环境中创建几乎任意的日常聆听条件。听觉场景可以实时改变。通过使用麦克风阵列测量声场对声音再现系统进行了机械评估。为了验证该系统,在移动和扩散噪声条件下对双侧人工耳蜗(CI)使用者测量了言语接受阈值(SRT)。此外,评估了不同类型的定向麦克风对言语感知的影响。

结果

在背侧半空间中有移动噪声源的情况下,CI使用者通过使用具有更高定向灵敏度的定向麦克风(改善2.5 dB)以及具有自适应定向灵敏度的定向麦克风(改善8.5 dB),SRT有显著改善。在具有扩散噪声的环境中,自适应定向麦克风的益处会降低。

结论

波场合成是在可重现的实验室环境中模拟日常聆听条件的有用工具。该技术可以补充既定的临床方法,以评估听力设备适配或信号预处理算法在动态聆听条件下的益处。

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[Impact of microphone position on sound localization in cochlear implant users].[麦克风位置对人工耳蜗使用者声音定位的影响]
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Single-Sided Deafness: Impact of Cochlear Implantation on Speech Perception in Complex Noise and on Auditory Localization Accuracy.单侧耳聋:人工耳蜗植入对复杂噪声环境下言语感知及听觉定位准确性的影响。
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Effectiveness of Directional Microphones in Bilateral/Bimodal Cochlear Implant Users-Impact of Spatial and Temporal Noise Characteristics.
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定向麦克风对双侧/双耳双模人工耳蜗使用者的有效性——空间和时间噪声特征的影响
Otol Neurotol. 2017 Dec;38(10):e551-e557. doi: 10.1097/MAO.0000000000001524.
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Improvement of speech perception in quiet and in noise without decreasing localization abilities with the bone conduction device Bonebridge.使用骨传导装置Bonebridge提高安静和嘈杂环境下的语音感知能力,同时不降低定位能力。
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Impact of a moving noise masker on speech perception in cochlear implant users.移动噪声掩蔽器对人工耳蜗使用者言语感知的影响。
PLoS One. 2015 May 13;10(5):e0126133. doi: 10.1371/journal.pone.0126133. eCollection 2015.
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Musical Sound Quality in Cochlear Implant Users: A Comparison in Bass Frequency Perception Between Fine Structure Processing and High-Definition Continuous Interleaved Sampling Strategies.人工耳蜗使用者的音乐音质:精细结构处理与高清连续交错采样策略在低频感知方面的比较。
Ear Hear. 2015 Sep-Oct;36(5):582-90. doi: 10.1097/AUD.0000000000000170.
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