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  1. Forgetting in immediate serial recall: Decay, temporal distinctiveness, or interference?Klaus Oberauer & Stephan Lewandowsky - 2008 - Psychological Review 115 (3):544-576.
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  • Rapid learning of syllable classes from a perceptually continuous speech stream.Ansgar D. Endress & Luca L. Bonatti - 2007 - Cognition 105 (2):247-299.
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  • Music Perception and Cognition: A Review of Recent Cross‐Cultural Research. [REVIEW]Catherine J. Stevens - 2012 - Topics in Cognitive Science 4 (4):653-667.
    Experimental investigations of cross-cultural music perception and cognition reported during the past decade are described. As globalization and Western music homogenize the world musical environment, it is imperative that diverse music and musical contexts are documented. Processes of music perception include grouping and segmentation, statistical learning and sensitivity to tonal and temporal hierarchies, and the development of tonal and temporal expectations. The interplay of auditory, visual, and motor modalities is discussed in light of synchronization and the way music moves via (...)
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  • Simplicity: A unifying principle in cognitive science?Nick Chater & Paul Vitányi - 2003 - Trends in Cognitive Sciences 7 (1):19-22.
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  • When forgetting fosters learning: A neural network model for statistical learning.Ansgar D. Endress & Scott P. Johnson - 2021 - Cognition 213 (C):104621.
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  • Implicit learning of tonality: A self-organizing approach.Barbara Tillmann, Jamshed J. Bharucha & Emmanuel Bigand - 2000 - Psychological Review 107 (4):885-913.
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  • A combined model of sensory and cognitive representations underlying tonal expectations in music: From audio signals to behavior.Tom Collins, Barbara Tillmann, Frederick S. Barrett, Charles Delbé & Petr Janata - 2014 - Psychological Review 121 (1):33-65.
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  • Predictive uncertainty in auditory sequence processing.Niels Chr Hansen & Marcus T. Pearce - 2014 - Frontiers in Psychology 5:88945.
    Previous studies of auditory expectation have focused on the expectedness perceived by listeners retrospectively in response to events. In contrast, this research examines predictive uncertainty —a property of listeners' prospective state of expectation prior to the onset of an event. We examine the information-theoretic concept of Shannon entropy as a model of predictive uncertainty in music cognition. This is motivated by the Statistical Learning Hypothesis, which proposes that schematic expectations reflect probabilistic relationships between sensory events learned implicitly through exposure. Using (...)
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  • Tracing the dynamic changes in perceived tonal organization in a spatial representation of musical keys.Carol L. Krumhansl & Edward J. Kessler - 1982 - Psychological Review 89 (4):334-368.
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  • Statistical learning and Gestalt-like principles predict melodic expectations.Emily Morgan, Allison Fogel, Anjali Nair & Aniruddh D. Patel - 2019 - Cognition 189 (C):23-34.
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  • A Probabilistic Model of Melody Perception.David Temperley - 2008 - Cognitive Science 32 (2):418-444.
    This study presents a probabilistic model of melody perception, which infers the key of a melody and also judges the probability of the melody itself. The model uses Bayesian reasoning: For any “surface” pattern and underlying “structure,” we can infer the structure maximizing P(structure|surface) based on knowledge of P(surface, structure). The probability of the surface can then be calculated as ∑ P(surface, structure), summed over all structures. In this case, the surface is a pattern of notes; the structure is a (...)
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  • Studying Musical and Linguistic Prediction in Comparable Ways: The Melodic Cloze Probability Method.Allison R. Fogel, Jason C. Rosenberg, Frank M. Lehman, Gina R. Kuperberg & Aniruddh D. Patel - 2015 - Frontiers in Psychology 6.
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