R. Vicen-Bueno, A. Martinez-Leira, R. Gil-Pita, M. Rosa-Zurera
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引用次数: 7
Abstract
The speech signal corrupted by the acoustic feedback in digital hearing aids can be restored by a feedback reduction system using adaptive algorithms such as the least-mean square (LMS) algorithm. The main disadvantage of the LMS algorithm is the instability. In order to avoid this situation, it is used another feedback reduction systems based on two different algorithms: the filtered-X LMS (FXLMS) and the normalized filtered-X LMS (NFXLMS). These algorithms are tested in two digital hearing aid categories: the in-the-ear (ITE) and the in-the-canal (ITC). For both categories, the added stable gain (ASG) value over the limit gain of the digital hearing aids is obtained. The ASG value is achieved as a tradeoff between the segmented signal-to-noise ratio (objective parameter) and the speech quality (subjective parameter). The results show how the digital hearing aid working with a feedback reduction adaptive filter adapted with the NFXLMS algorithm is able to achieve up to 18 dB of increase over the limit gain.
在数字式助听器中,被声反馈破坏的语音信号可以通过采用自适应算法如最小均方(LMS)算法的反馈还原系统来恢复。LMS算法的主要缺点是不稳定性。为了避免这种情况,使用了另一种基于两种不同算法的反馈约简系统:滤波- x LMS (FXLMS)和归一化滤波- x LMS (NFXLMS)。这些算法在两种数字助听器类别中进行了测试:入耳式(ITE)和耳道式(ITC)。对于这两个类别,都获得了超过数字助听器极限增益的附加稳定增益(ASG)值。ASG值是在分割的信噪比(客观参数)和语音质量(主观参数)之间进行权衡得到的。结果表明,采用NFXLMS算法的反馈减小自适应滤波器的数字助听器能够在极限增益上实现高达18 dB的增长。
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