Simulating melodic and harmonic expectations for tonal cadences using probabilistic models

Sears, David R. W.; Pearce, Marcus T.; Caplin, William E.; McAdams, Stephen

doi:10.1080/09298215.2017.1367010

Cited by 31 publications

(36 citation statements)

References 55 publications

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“…The results reviewed in this paper have been obtained for discrete, symbolic representations of melodic musical styles. To generalize the approach to a wider variety of musical styles, the representational capacity of IDyOM must be expanded to polyphonic music but also to musical cultures that have no written tradition, where the distinction between composition and performance is blurred or nonexistent, or where music is inextricably combined with other modes of communication . Doing so would open up the approach to a much broader range of musical cultures and traditions while also introducing significant computational challenges in modeling statistical learning and probabilistic prediction.…”

Section: Discussionmentioning

confidence: 99%

“…and ). However, recent research has extended IDyOM to modeling expectations for harmonic movement and has simulated melodic and harmonic expectations separately for tonal cadences in classical string quartets . Current research is also extending IDyOM to polyphonic music represented as parallel sequences, each containing a voice or perceptual stream, for which separate predictions are generated .…”

Section: Idyommentioning

confidence: 99%

“…However, recent research has extended IDyOM to modeling expectations for harmonic movement 60 and has simulated melodic and harmonic expectations separately for tonal cadences in classical string quartets. 61 Current research is also extending IDyOM to polyphonic music represented as parallel sequences, each containing a voice or perceptual stream, for which separate predictions are generated. 62 In time, this approach may be capable of modeling complex aspects of polyphonic structure, such as stream segregation, and interactions between harmony and melody (e.g., the ways in which harmonic syntax constrains melodic expectations).…”

Section: Idyommentioning

confidence: 99%

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Statistical learning and probabilistic prediction in music cognition: mechanisms of stylistic enculturation

Pearce

2018

Annals of the New York Academy of Sciences

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161

197

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Music perception depends on internal psychological models derived through exposure to a musical culture. It is hypothesized that this musical enculturation depends on two cognitive processes: (1) statistical learning, in which listeners acquire internal cognitive models of statistical regularities present in the music to which they are exposed; and (2) probabilistic prediction based on these learned models that enables listeners to organize and process their mental representations of music. To corroborate these hypotheses, I review research that uses a computational model of probabilistic prediction based on statistical learning (the information dynamics of music (IDyOM) model) to simulate data from empirical studies of human listeners. The results show that a broad range of psychological processes involved in music perception-expectation, emotion, memory, similarity, segmentation, and meter-can be understood in terms of a single, underlying process of probabilistic prediction using learned statistical models. Furthermore, IDyOM simulations of listeners from different musical cultures demonstrate that statistical learning can plausibly predict causal effects of differential cultural exposure to musical styles, providing a quantitative model of cultural distance. Understanding the neural basis of musical enculturation will benefit from close coordination between empirical neuroimaging and computational modeling of underlying mechanisms, as outlined here.

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Section: Discussionmentioning

confidence: 99%

Section: Idyommentioning

confidence: 99%

Section: Idyommentioning

confidence: 99%

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Statistical learning and probabilistic prediction in music cognition: mechanisms of stylistic enculturation

Pearce

2018

Annals of the New York Academy of Sciences

Self Cite

161

197

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“…Therefore, IDyOM returns an estimation of the predictability of each tone and uncertainty with which it can be predicted, coherently with the human perception [49].…”

Section: Experimental Design and Stimulimentioning

confidence: 96%

“…The data was then high-pass filtered (0.1 Hz threshold) to remove frequencies that were too low for being originated by the brain. We also applied notch filter (48)(49)(50)(51)(52) to correct for possible interference of the electric current. The data was further downsampled to 150 Hz and few parts of the data, altered by large artefacts, were removed after visual inspection.…”

Section: Data Pre-processingmentioning

confidence: 99%

Spatiotemporal whole-brain dynamics of auditory patterns recognition

Bonetti

Brattico

Carlomagno

et al. 2020

Preprint

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Music is a universal non-verbal human language, built on logical structures and articulated in balanced hierarchies between sounds, offering excellent opportunities to explore how the brain creates meaning for complex spatiotemporal auditory patterns. Using the high temporal resolution of magnetoencephalography in 70 participants, we investigated their unfolding brain dynamics during the recognition of Johann Sebastian Bach's original musical patterns compared to new variations thereof. Remarkably, the recognition of Bach's original music ignited a widespread music processing brain network comprising primary auditory cortex, superior temporal gyrus, insula, frontal operculum, cingulate gyrus, orbitofrontal cortex, basal ganglia and hippocampus. Furthermore, both activity and connectivity increased over time, following the evolution and unfolding of Bach's original patterns. This study shed new light on brain activity and connectivity dynamics underlying auditory patterns recognition, highlighting the crucial role of fast neural phase synchronization underlying meaningful, complex cognitive processes.

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Statistical learning and Gestalt-like principles predict melodic expectations

et al. 2019

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Expectation, or prediction, has become a major theme in cognitive science. Music offers a powerful system for studying how expectations are formed and deployed in the processing of richly structured sequences that unfold rapidly in time. We ask to what extent expectations about an upcoming note in a melody are driven by two distinct factors: Gestalt-like principles grounded in the auditory system (e.g. a preference for subsequent notes to move in small intervals), and statistical learning of melodic structure. We use multinomial regression

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Simulating melodic and harmonic expectations for tonal cadences using probabilistic models

Cited by 31 publications

References 55 publications

Statistical learning and probabilistic prediction in music cognition: mechanisms of stylistic enculturation

Statistical learning and probabilistic prediction in music cognition: mechanisms of stylistic enculturation

Spatiotemporal whole-brain dynamics of auditory patterns recognition

Statistical learning and Gestalt-like principles predict melodic expectations

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