音乐认知神经科学中与变化相关的脑电位的前景。

The promises of change-related brain potentials in cognitive neuroscience of music.

作者信息

Tervaniemi Mari, Huotilainen Minna

机构信息

Cognitive Brain Research Unit, Department of Psychology, University of Helsinki, Helsinki, Finland.

出版信息

Ann N Y Acad Sci. 2003 Nov;999:29-39. doi: 10.1196/annals.1284.003.

DOI:10.1196/annals.1284.003

PMID:14681115

Abstract

Even when simultaneously performing a task unrelated to sounds, the human auditory cortex can precisely model the invariances of the acoustic environment. Data acquired in a mismatch negativity (MMN) paradigm have shown that temporally and spectrally complex sounds as well as their relations are automatically represented in the human auditory cortex. Furthermore, MMN data indicate that these neural sound representations are spatially distinct from phonetic and musical sounds within and between the cerebral hemispheres. Most MMN studies were conducted in pitch dimension, but temporal aspects of sound processing are also under increasing experimentation. To some extent, musical expertise is also reflected in sound representation accuracy as indexed by the MMN paradigm.

摘要

即使在同时执行一项与声音无关的任务时，人类听觉皮层也能精确模拟声学环境的不变性。在失配负波（MMN）范式中获取的数据表明，时间和频谱复杂的声音及其关系会自动在人类听觉皮层中得到表征。此外，MMN数据表明，这些神经声音表征在大脑半球内部和之间在空间上与语音和音乐声音不同。大多数MMN研究是在音高维度上进行的，但声音处理的时间方面也在接受越来越多的实验研究。在某种程度上，音乐专业知识也反映在由MMN范式所索引的声音表征准确性上。

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音乐认知神经科学中与变化相关的脑电位的前景。

The promises of change-related brain potentials in cognitive neuroscience of music.

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