雪貂和谐融合的感知与皮层神经编码

Perception and cortical neural coding of harmonic fusion in ferrets.

作者信息

Kalluri Sridhar, Depireux Didier A, Shamma Shihab A

机构信息

Institute for Systems Research, University of Maryland, College Park, Maryland 20742, USA.

出版信息

J Acoust Soc Am. 2008 May;123(5):2701-16. doi: 10.1121/1.2902178.

DOI:10.1121/1.2902178

PMID:18529189

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2677325/

Abstract

This study examined the perception and cortical representation of harmonic complex tones, from the perspective of the spectral fusion evoked by such sounds. Experiment 1 tested whether ferrets spontaneously distinguish harmonic from inharmonic tones. In baseline sessions, ferrets detected a pure tone terminating a sequence of inharmonic tones. After they reached proficiency, a small fraction of the inharmonic tones were replaced with harmonic tones. Some of the animals confused the harmonic tones with the pure tones at twice the false-alarm rate. Experiment 2 sought correlates of harmonic fusion in single neurons of primary auditory cortex and anterior auditory field, by comparing responses to harmonic tones with those to inharmonic tones in the awake alert ferret. The effects of spectro-temporal filtering were accounted for by using the measured spectrotemporal receptive field to predict responses and by seeking correlates of fusion in the predictability of responses. Only 12% of units sampled distinguished harmonic tones from inharmonic tones, a small percentage that is consistent with the relatively weak ability of the ferrets to spontaneously discriminate harmonic tones from inharmonic tones in Experiment 1.

摘要

本研究从此类声音诱发的频谱融合角度，考察了谐波复合音的感知和皮层表征。实验1测试了雪貂是否能自发区分谐波音和非谐波音。在基线阶段，雪貂检测到一个终止非谐波音序列的纯音。在它们熟练掌握后，一小部分非谐波音被谐波音取代。一些动物将谐波音与纯音混淆，误报率是原来的两倍。实验2通过比较清醒警觉雪貂对谐波音和非谐波音的反应，寻找初级听觉皮层和前听觉场单个神经元中谐波融合的相关因素。通过使用测量的频谱时间感受野来预测反应，并通过在反应的可预测性中寻找融合的相关因素，来解释频谱时间滤波的影响。所采样的单元中只有12%能区分谐波音和非谐波音，这一较小的比例与实验1中雪貂自发区分谐波音和非谐波音的能力相对较弱是一致的。

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