感知音乐复杂性的信息理论建模

IF 1.3 2区 心理学 0 MUSIC Music Perception Pub Date : 2019-12-01 DOI:10.1525/mp.2019.37.2.165
Sarah A. Sauvé, M. Pearce
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引用次数: 4

摘要

是什么让一段音乐对听者来说显得复杂?本研究扩展了Eerola(2016)之前的工作,研究了基于统计学习和概率预测的听觉期望计算模型(IDyOM)生成的信息内容,作为感知音乐复杂性的经验定义。我们使用该模型系统地操纵了短复调音乐节选的旋律、节奏和和声,以确保这些操作在预期的方向上系统地改变了信息内容。研究人员发现,从28名参与者那里收集的复杂性评级与旋律和和声信息内容呈正相关,而旋律和和声信息内容与描述性音乐特征(如走调音符的比例和音调模糊)相对应。当考虑到个体差异时,这些因素比被操纵的预测因素更能解释方差。音乐背景对复杂性评分没有显著的预测作用。结果支持IDyOM实现的信息内容作为复杂性的信息理论度量,并将idyom9的应用范围扩展到感知复杂性。
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Information-theoretic Modeling of Perceived Musical Complexity
What makes a piece of music appear complex to a listener? This research extends previous work by Eerola (2016), examining information content generated by a computational model of auditory expectation (IDyOM) based on statistical learning and probabilistic prediction as an empirical definition of perceived musical complexity. We systematically manipulated the melody, rhythm, and harmony of short polyphonic musical excerpts using the model to ensure that these manipulations systematically varied information content in the intended direction. Complexity ratings collected from 28 participants were found to positively correlate most strongly with melodic and harmonic information content, which corresponded to descriptive musical features such as the proportion of out-of-key notes and tonal ambiguity. When individual differences were considered, these explained more variance than the manipulated predictors. Musical background was not a significant predictor of complexity ratings. The results support information content, as implemented by IDyOM, as an information-theoretic measure of complexity as well as extending IDyOM9s range of applications to perceived complexity.
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来源期刊
Music Perception
Music Perception Multiple-
CiteScore
3.70
自引率
4.30%
发文量
22
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
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