Department of Informatics Engineering, Faculdade de Engenharia, Universidade do Porto Porto, Portugal.
Institute for Systems and Computer Engineering - Technology and Science (INESC-TEC) Porto, Portugal.
Front Psychol. 2014 Sep 16;5:1036. doi: 10.3389/fpsyg.2014.01036. eCollection 2014.
In order to better understand the musical properties which elicit an increased sensation of wanting to move when listening to music-groove-we investigate the effect of adding syncopation to simple piano melodies, under the hypothesis that syncopation is correlated to groove. Across two experiments we examine listeners' experience of groove to synthesized musical stimuli covering a range of syncopation levels and densities of musical events, according to formal rules implemented by a computer algorithm that shifts musical events from strong to weak metrical positions. Results indicate that moderate levels of syncopation lead to significantly higher groove ratings than melodies without any syncopation or with maximum possible syncopation. A comparison between the various transformations and the way they were rated shows that there is no simple relation between syncopation magnitude and groove.
为了更好地理解聆听音乐时产生更强烈运动欲望的音乐特性——律动,我们研究了在假设律动与切分音相关的情况下,为简单的钢琴旋律添加切分音的效果。在两项实验中,我们根据计算机算法的形式规则,用涵盖一系列切分音水平和音乐事件密度的合成音乐刺激来检验听众对律动的体验,该算法将音乐事件从强拍移到弱拍位置。结果表明,中度的切分音水平比没有切分音或最大可能切分音的旋律能显著提高律动评分。对各种变换及其评分的比较表明,切分音的大小与律动之间没有简单的关系。