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使用6通道信号处理器的人工耳蜗植入患者和听力正常的听众在噪声中识别语音的情况。

The identification of speech in noise by cochlear implant patients and normal-hearing listeners using 6-channel signal processors.

作者信息

Dorman M F, Loizou P C, Fitzke J

机构信息

Department of Speech and Hearing Science, Arizona State University, Tempe 85287-0102, USA.

出版信息

Ear Hear. 1998 Dec;19(6):481-4. doi: 10.1097/00003446-199812000-00009.

DOI:10.1097/00003446-199812000-00009
PMID:9867296
Abstract

OBJECTIVE

To compare the recognition of vowels and sentences in noise by cochlear implant patients using a 6-channel, continuous interleaved sampling (CIS) processor and by normal-hearing subjects listening to speech processed in the manner of the implant processor and output as six amplitude-modulated sine waves.

DESIGN

Subjects, 11 normal-hearing listeners and 7 cochlear implant patients, were presented natural vowels produced by men, women, and girls in /hVd/ context and sentences from the Hearing In Noise Test (HINT) lists at +15, +10, and +5 dB signal to noise ratio (SNR) for identification. Stimuli for the normal-hearing subjects were preprocessed through a simulation of a 6-channel implant processor and were output as the sum of sinusoids at the center frequencies of the analysis filters.

RESULTS

For the multitalker vowels, four of the seven patients achieved scores within +/-1 standard deviation of the mean for normal-hearing listeners at +15 and +10 dB SNR. At the +5 dB SNR three patients achieved scores within +/-1 standard deviation of the mean for the normal-hearing listeners. For the HINT sentences, four of seven patients achieved scores within +/-1 standard deviation of the mean for the normal-hearing listeners at +15 dB and at +10 dB SNR and two achieved scores within that range at +5 dB SNR.

CONCLUSION

Our results extend the range of stimulus conditions, from quiet to modest amounts of noise, in which the CIS strategy allows the best performing patients to extract most, if not all, of the information available to normal-hearing subjects listening to speech processed into six channels.

摘要

目的

比较使用6通道连续交错采样(CIS)处理器的人工耳蜗植入患者以及以人工耳蜗处理器的方式处理语音并输出为六个调幅正弦波的正常听力受试者在噪声环境中对元音和句子的识别能力。

设计

选取11名正常听力受试者和7名人工耳蜗植入患者作为研究对象,向他们呈现男性、女性和女孩在/hVd/语境下发出的自然元音以及来自噪声中听力测试(HINT)列表的句子,信号噪声比(SNR)分别为+15 dB、+10 dB和+5 dB,让他们进行识别。正常听力受试者的刺激信号通过模拟6通道植入处理器进行预处理,并作为分析滤波器中心频率处的正弦波之和输出。

结果

对于多说话者元音,在SNR为+15 dB和+10 dB时,7名患者中有4名的得分在正常听力受试者平均得分的±1个标准差范围内。在SNR为+5 dB时,3名患者的得分在正常听力受试者平均得分的±1个标准差范围内。对于HINT句子,在SNR为+15 dB和+10 dB时,7名患者中有4名的得分在正常听力受试者平均得分的±1个标准差范围内,在SNR为+5 dB时,有2名患者的得分在该范围内。

结论

我们的研究结果扩展了刺激条件的范围,从安静环境到适度噪声环境,在这些环境中,CIS策略使表现最佳的患者能够提取出,即便不是全部,也是大部分可供正常听力受试者在收听处理为六个通道的语音时获取的信息。

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