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在现实生活中,使用自适应波束形成器的人工耳蜗使用者的言语接受阈益处。

Speech reception threshold benefits in cochlear implant users with an adaptive beamformer in real life situations.

作者信息

Geißler Gunnar, Arweiler Iris, Hehrmann Phillipp, Lenarz Thomas, Hamacher Volkmar, Büchner Andreas

出版信息

Cochlear Implants Int. 2015 Mar;16(2):69-76. doi: 10.1179/1754762814Y.0000000088. Epub 2014 Jul 3.

DOI:10.1179/1754762814Y.0000000088
PMID:24993633
Abstract

OBJECTIVES

To compare the Naida CI UltraZoom adaptive beamformer and T-Mic settings in a real life environment.

METHODS

Speech reception thresholds (SRTs) were measured in a moderately reverberant room, using the German Oldenburger sentence test. The speech signal was always presented from the front loudspeaker at 0° azimuth and fixed masking noise was presented either simultaneously from all eight loudspeakers around the subject at 0°, ±45°, ±90°, ±135°, and 180° azimuth or from five loudspeakers positioned at ±70°, ±135°, and 180° azimuth. In the third test setup, an additional roving noise was added to the six loudspeaker arrangement.

RESULTS

There was a significant difference in mean SRTs between the Naida CI T-Mic and UltraZoom in each of the three test setups. The largest improvements were seen in the six speaker roving and fixed noise conditions. Adding ClearVoice to the Naida CI T-Mic setting significantly improved the SRT in both fixed noise conditions, but not in the roving noise condition. In each setup, the lowest SRTs were obtained with the UltraZoom plus ClearVoice setting.

DISCUSSION

The degree of improvement was consistent with previous beamforming studies. In the most challenging listening situation, with noise from eight speakers and speech and noise presented coincidentally from the front, UltraZoom still provided a significant benefit. When a moving noise source was added, the improvement in SRT provided by UltraZoom was maintained.

CONCLUSION

When tested in challenging and realistic noise environments, the Naida CI UltraZoom adaptive beamformer resulted in significantly lower mean SRTs than when the T-Mic alone was used.

摘要

目的

在现实环境中比较奈达 CI 超变焦自适应波束形成器和 T 型麦克风设置。

方法

在一个适度混响的房间里,使用德国奥尔登堡句子测试来测量言语接受阈值(SRT)。语音信号总是从方位角为 0°的前方扬声器发出,固定掩蔽噪声要么同时从受试者周围所有八个扬声器在方位角 0°、±45°、±90°、±135°和 180°发出,要么从位于±70°、±135°和 180°方位角的五个扬声器发出。在第三种测试设置中,向六个扬声器布置中添加了一个移动噪声。

结果

在三种测试设置中的每一种中,奈达 CI T 型麦克风和超变焦之间的平均 SRT 都存在显著差异。在六个扬声器移动和固定噪声条件下观察到最大的改善。在奈达 CI T 型麦克风设置中添加 ClearVoice 在两种固定噪声条件下都显著提高了 SRT,但在移动噪声条件下没有。在每种设置中,使用超变焦加 ClearVoice 设置获得了最低的 SRT。

讨论

改善程度与先前的波束形成研究一致。在最具挑战性的聆听情况下,来自八个扬声器的噪声以及语音和噪声同时从前方发出时,超变焦仍然提供了显著的益处。当添加移动噪声源时,超变焦提供的 SRT 改善得以维持。

结论

在具有挑战性的现实噪声环境中进行测试时,奈达 CI 超变焦自适应波束形成器产生的平均 SRT 明显低于单独使用 T 型麦克风时。

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