Non-linear signal processing in digital hearing aids.

Scandinavian audiology. Supplementum Pub Date : 1998-01-01 DOI:10.1080/010503998420649

T Lunner, J Hellgren, S Arlinger, C Elberling

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引用次数: 16

Abstract

Three different non-linear digital signal processing algorithms were developed; LinEar, DynEar and RangeEar. All three provided individual frequency shaping via a seven-band low-power filterbank and compression in two channels. RangeEar and DynEar used wide dynamic range syllabic compression in the low-frequency (LF) channel, while LinEar used compression limiting. In the high-frequency (HF) channel, RangeEar used a slow-acting automatic volume control, while DynEar and LinEar used compression limiting. Wearable digital signal processing-based experimental instruments were used to evaluate the fitting algorithms under real world conditions with experienced hearing aid users. Evaluation included laboratory testing of speech recognition in noise and questionnaires on sound quality ratings. Results did not indicate one general good-for-all algorithm, but different algorithms resulting in preference and performance depending on the hearing loss configuration. Preference for any of the new algorithms could be predicted based on auditory dynamic range measurements. It was hypothesized that the different preferences were affected by different susceptibility to masking of HF sounds by amplified LF sounds.

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数字助听器中的非线性信号处理。

提出了三种不同的非线性数字信号处理算法;线性，动态和距离。所有三个提供单独的频率整形通过一个七波段低功率滤波器组和压缩在两个通道。rangear和DynEar在低频(LF)信道中使用宽动态范围音节压缩，而LinEar使用压缩限制。在高频(HF)通道中，RangeEar使用慢速自动音量控制，而DynEar和LinEar使用压缩限制。使用基于可穿戴数字信号处理的实验仪器，与有经验的助听器用户一起评估真实条件下的拟合算法。评估包括在噪音中进行语音识别的实验室测试和关于音质评级的问卷调查。结果并没有表明一种通用的通用算法，而是不同的算法导致的偏好和性能取决于听力损失的配置。对任何新算法的偏好都可以基于听觉动态范围测量来预测。假设不同的偏好受低频声放大对高频声掩蔽的不同敏感性的影响。

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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Scandinavian audiology. Supplementum

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