通过共调制掩蔽释放评估时间相干性对听觉流形成的影响。

Assessing the effects of temporal coherence on auditory stream formation through comodulation masking release.

作者信息

Christiansen Simon Krogholt, Oxenham Andrew J

机构信息

Centre for Applied Hearing Research, Technical University of Denmark, DK-2800 Lyngby, Denmark.

Departments of Psychology and Otolaryngology, University of Minnesota, Minneapolis, Minnesota 55455.

出版信息

J Acoust Soc Am. 2014 Jun;135(6):3520-9. doi: 10.1121/1.4872300.

DOI:10.1121/1.4872300

PMID:24907815

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4048442/

Abstract

Recent studies of auditory streaming have suggested that repeated synchronous onsets and offsets over time, referred to as "temporal coherence," provide a strong grouping cue between acoustic components, even when they are spectrally remote. This study uses a measure of auditory stream formation, based on comodulation masking release (CMR), to assess the conditions under which a loss of temporal coherence across frequency can lead to auditory stream segregation. The measure relies on the assumption that the CMR, produced by flanking bands remote from the masker and target frequency, only occurs if the masking and flanking bands form part of the same perceptual stream. The masking and flanking bands consisted of sequences of narrowband noise bursts, and the temporal coherence between the masking and flanking bursts was manipulated in two ways: (a) By introducing a fixed temporal offset between the flanking and masking bands that varied from zero to 60 ms and (b) by presenting the flanking and masking bursts at different temporal rates, so that the asynchronies varied from burst to burst. The results showed reduced CMR in all conditions where the flanking and masking bands were temporally incoherent, in line with expectations of the temporal coherence hypothesis.

摘要

近期关于听觉流的研究表明，随着时间推移反复出现的同步起始和结束，即所谓的“时间连贯性”，即便声学成分在频谱上相距甚远，也能在它们之间提供强大的分组线索。本研究采用一种基于共调制掩蔽释放（CMR）的听觉流形成测量方法，以评估跨频率的时间连贯性丧失会在何种条件下导致听觉流分离。该测量方法基于这样一种假设：由远离掩蔽音和目标频率的侧翼频段产生的CMR，只有在掩蔽频段和侧翼频段构成同一感知流的一部分时才会出现。掩蔽频段和侧翼频段由窄带噪声突发序列组成，掩蔽突发和侧翼突发之间的时间连贯性通过两种方式进行操控：（a）在侧翼频段和掩蔽频段之间引入从零到60毫秒不等的固定时间偏移；（b）以不同的时间速率呈现侧翼突发和掩蔽突发，使得每次突发之间的异步性各不相同。结果显示，在侧翼频段和掩蔽频段时间上不连贯的所有条件下，CMR均降低，这与时间连贯性假说的预期相符。

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