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Information-Theoretic Measures Predict the Human Judgment of Rhythm Complexity
Cognitive Science 41 (3):800-813 (2017)
Abstract
To formalize the human judgment of rhythm complexity, we used five measures from information theory and algorithmic complexity to measure the complexity of 48 artificially generated rhythmic sequences. We compared these measurements to human prediction accuracy and easiness judgments obtained from a listening experiment, in which 32 participants guessed the last beat of each sequence. We also investigated the modulating effects of musical expertise and general pattern identification ability. Entropy rate and Kolmogorov complexity were correlated with prediction accuracy, and highly correlated with easiness judgments. A logistic regression showed main effects of musical training, entropy rate, and Kolmogorov complexity, and an interaction between musical training and both entropy rate and Kolmogorov complexity. These results indicate that information-theoretic concepts capture some salient features of the human judgment of rhythm complexity, and they confirm the influence of musical expertise on complexity judgments.My notes
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Citations of this work
A Comparison of Human and Computational Melody Prediction Through Familiarity and Expertise.Matevž Pesek, Špela Medvešek, Anja Podlesek, Marko Tkalčič & Matija Marolt - 2020 - Frontiers in Psychology 11.
What Determines Visual Statistical Learning Performance? Insights From Information Theory.Noam Siegelman, Louisa Bogaerts & Ram Frost - 2019 - Cognitive Science 43 (12):e12803.
References found in this work
Affect as a function of stimulus variation.Paul C. Vitz - 1966 - Journal of Experimental Psychology 71 (1):74.
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