Syncopation and Groove in Polyphonic Music

IF 1.3 2区心理学 0 MUSIC

Music Perception Pub Date : 2022-06-01 DOI:10.1525/mp.2022.39.5.503

G. Sioros, G. Madison, Diogo Cocharro, A. Danielsen, F. Gouyon

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引用次数: 4

Abstract

Music often evokes a regular beat and a pleasurable sensation of wanting to move to that beat called groove. Recent studies show that a rhythmic pattern’s ability to evoke groove increases at moderate levels of syncopation, essentially, when some notes occur earlier than expected. We present two studies that investigate that effect of syncopation in more realistic polyphonic music examples. First, listeners rated their urge to move to music excerpts transcribed from funk and rock songs, and to algorithmically transformed versions of these excerpts: 1) with the original syncopation removed, and 2) with various levels of pseudorandom syncopation introduced. While the original excerpts were rated higher than the de-syncopated, the algorithmic syncopation was not as successful in evoking groove. Consequently, a moderate level of syncopation increases groove, but only for certain syncopation patterns. The second study provides detailed comparisons of the original and transformed rhythmic structures that revealed key differences between them in: 1) the distribution of syncopation across instruments and metrical positions, 2) the counter-meter figures formed by the syncopating notes, and 3) the number of pickup notes. On this basis, we form four concrete hypotheses about the function of syncopation in groove, to be tested in future experiments.

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复调音乐中的切分与槽

音乐常常唤起一种规律的节奏和一种愉悦的感觉，想要移动到被称为groove的节奏上。最近的研究表明，当一些音符出现得比预期的要早时，节奏模式在适度的切分音水平上唤起凹槽的能力会增强。我们提出了两项研究，调查切分的影响，在更现实的复调音乐的例子。首先，听众对他们想听放克和摇滚歌曲的冲动进行了评分，并对这些歌曲的算法转换版本进行了评分:1)删除了原始切分音，2)引入了不同程度的伪随机切分音。虽然原始节选的评分高于去切分，但算法切分在唤起凹槽方面并不成功。因此，适度的切分增加了凹槽，但仅适用于某些切分模式。第二项研究详细比较了原始和转换后的节奏结构，揭示了它们之间的主要差异:1)切分在乐器和格律位置上的分布，2)切分音符形成的反拍子，以及3)拾取音符的数量。在此基础上，我们对切分在沟槽中的作用形成了四个具体的假设，并将在未来的实验中进行验证。

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来源期刊

Music Perception Multiple-

CiteScore

3.70

自引率

4.30%

发文量

期刊介绍： Music Perception charts the ongoing scholarly discussion and study of musical phenomena. Publishing original empirical and theoretical papers, methodological articles and critical reviews from renowned scientists and musicians, Music Perception is a repository of insightful research. The broad range of disciplines covered in the journal includes: •Psychology •Psychophysics •Linguistics •Neurology •Neurophysiology •Artificial intelligence •Computer technology •Physical and architectural acoustics •Music theory