时间精细结构处理在正常听力和听力受损人群的音高感知、掩蔽及言语感知中的作用。
The role of temporal fine structure processing in pitch perception, masking, and speech perception for normal-hearing and hearing-impaired people.
作者信息
Moore Brian C J
机构信息
Department of Experimental Psychology, University of Cambridge, Downing Street, Cambridge, CB2 3EB, UK.
出版信息
J Assoc Res Otolaryngol. 2008 Dec;9(4):399-406. doi: 10.1007/s10162-008-0143-x. Epub 2008 Oct 15.
Abstract
Complex broadband sounds are decomposed by the auditory filters into a series of relatively narrowband signals, each of which can be considered as a slowly varying envelope (E) superimposed on a more rapid temporal fine structure (TFS). Both E and TFS information are represented in the timing of neural discharges, although TFS information as defined here depends on phase locking to individual cycles of the stimulus waveform. This paper reviews the role played by TFS in masking, pitch perception, and speech perception and concludes that cues derived from TFS play an important role for all three. TFS may be especially important for the ability to "listen in the dips" of fluctuating background sounds when detecting nonspeech and speech signals. Evidence is reviewed suggesting that cochlear hearing loss reduces the ability to use TFS cues. The perceptual consequences of this, and reasons why it may happen, are discussed.
摘要
复杂的宽带声音被听觉滤波器分解为一系列相对窄带的信号,其中每个信号都可被视为叠加在更快的时间精细结构(TFS)上的缓慢变化的包络(E)。E和TFS信息都在神经放电的时间中得到体现,尽管这里定义的TFS信息取决于对刺激波形各个周期的相位锁定。本文回顾了TFS在掩蔽、音高感知和言语感知中所起的作用,并得出结论,源自TFS的线索对所有这三个方面都起着重要作用。在检测非语音和语音信号时,TFS对于在波动背景声音的“低谷中聆听”的能力可能尤为重要。文中回顾的证据表明,耳蜗性听力损失会降低使用TFS线索的能力。本文讨论了由此产生的感知后果以及可能发生这种情况的原因。
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