Long-term music training tunes how the brain temporally binds signals from multiple senses

Lee, Hweeling; Noppeney, Uta

doi:10.1073/pnas.1115267108

Cited by 150 publications

(202 citation statements)

References 47 publications

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“…This may be explained by musicians' more narrow temporal windows for audiovisual integration in general , and for musical stimuli, more specifically (Lee & Noppeney, 2011), or from differences in motivation between musicians and non-musicians (McAuley, Henry, & Tuft, 2011). Importantly, the effect of match condition did not differ as a result of musical training.…”

Section: Discussionmentioning

confidence: 86%

“…Accuracy is superior for familiar stimuli (Vatakis & Spence, 2006a), and musical training increases sensitivity to audiovisual asynchrony (Lee & Noppeney 2011). Past findings also suggest that musicians, through their long-term training, acquire internal forward action models that allow them to better predict the auditory outcomes of visual actions (Petrini, Russell & Pollick, 2009).…”

Section: Introductionmentioning

confidence: 88%

“…For instance, temporal ventriloquism is a process by which a cross-modal temporal conflict (asynchrony) is resolved through cross-modal attraction in time Morein-Zamfir, Soto-Faraco, & Kingston, 2003). The temporal window in which we are tolerant to cross-modal asynchrony is malleable-it can be widened by bottom up factors such as repeated exposure to asynchronous stimuli (Navarra et al, 2005), and shortened through experience such as long-term musical training (Lee & Noppeney, 2011) or short-term perceptual learning (Powers, Hillock & Wallace, 2009). Here we explore how this temporal window can also be influenced by the unity assumption.…”

Section: Introductionmentioning

confidence: 99%

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The unity assumption facilitates cross-modal binding of musical, non-speech stimuli: The role of spectral and amplitude envelope cues

Chuen

Schutz

2016

Atten Percept Psychophys

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An observer's inference that multimodal signals originate from a common underlying source facilitates crossmodal binding. This 'unity assumption' causes asynchronous auditory and visual speech streams to seem simultaneous (Vatakis & Spence, Perception & Psychophysics, 69(5), 744-756, 2007). Subsequent tests of non-speech stimuli such as musical and impact events found no evidence for the unity assumption, suggesting the effect is speech-specific (Vatakis & Spence, Acta Psychologica, 127(1), [12][13][14][15][16][17][18][19][20][21][22][23] 2008). However, the role of amplitude envelope (the changes in energy of a sound over time) was not previously appreciated within this paradigm. Here, we explore whether previous findings suggesting speech-specificity of the unity assumption were confounded by similarities in the amplitude envelopes of the contrasted auditory stimuli. Experiment 1 used natural events with clearly differentiated envelopes: single notes played on either a cello (bowing motion) or marimba (striking motion). Participants performed an un-speeded temporal order judgments task; viewing audio-visually matched (e.g., marimba auditory with marimba video) and mismatched (e.g., cello auditory with marimba video) versions of stimuli at various stimulus onset asynchronies, and were required to indicate which modality was presented first. As predicted, participants were less sensitive to temporal order in matched conditions, demonstrating that the unity assumption can facilitate the perception of synchrony outside of speech stimuli. Results from Experiments 2 and 3 revealed that when spectral information was removed from the original auditory stimuli, amplitude envelope alone could not facilitate the influence of audiovisual unity. We propose that both amplitude envelope and spectral acoustic cues affect the percept of audiovisual unity, working in concert to help an observer determine when to integrate across modalities.

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Section: Discussionmentioning

confidence: 86%

Section: Introductionmentioning

confidence: 88%

Section: Introductionmentioning

confidence: 99%

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The unity assumption facilitates cross-modal binding of musical, non-speech stimuli: The role of spectral and amplitude envelope cues

Chuen

Schutz

2016

Atten Percept Psychophys

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“…Common coding ensures that, when skilled pianists hear sounds [86,87] or see movements [88] associated with a trained piece, they represent these effects in terms of the neural resources necessary to produce them. These representations carry information about the action's temporal dynamics [89], which permits the observer to anticipate the action internally [90]. On this view, action simulation ( §2a) involves accessing this temporal information by activating an action representation.…”

Section: (A) Representing Self and Other In The Brainmentioning

confidence: 99%

Rhythm in joint action: psychological and neurophysiological mechanisms for real-time interpersonal coordination

Keller

Novembre

Hove

2014

Phil. Trans. R. Soc. B

313

322

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Human interaction often requires simultaneous precision and flexibility in the coordination of rhythmic behaviour between individuals engaged in joint activity, for example, playing a musical duet or dancing with a partner. This review article addresses the psychological processes and brain mechanisms that enable such rhythmic interpersonal coordination. First, an overview is given of research on the cognitive-motor processes that enable individuals to represent joint action goals and to anticipate, attend and adapt to other's actions in real time. Second, the neurophysiological mechanisms that underpin rhythmic interpersonal coordination are sought in studies of sensorimotor and cognitive processes that play a role in the representation and integration of self- and other-related actions within and between individuals' brains. Finally, relationships between social–psychological factors and rhythmic interpersonal coordination are considered from two perspectives, one concerning how social-cognitive tendencies (e.g. empathy) affect coordination, and the other concerning how coordination affects interpersonal affiliation, trust and prosocial behaviour. Our review highlights musical ensemble performance as an ecologically valid yet readily controlled domain for investigating rhythm in joint action.

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“…We know that there exist Figure 9. [19][20][21] The examination of the differences in the brains of musicians and non-musicians provides an ideal model to compare and examine functional and structural brain plasticity as musicians continuously practice complex motor, auditory, and multimodal skills. We also know that music training in children results in long-term enhancement of visual-spatial, verbal, and mathematical performance.…”

Section: Brain Network: Measurement Of Changes In Brain State Througmentioning

confidence: 99%

The Plasticity of Brain Networks as a Basis for a Science of Nervous System Rehabilitation

Melillo¹

2015

Int J Neurorehabilitation Eng

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Long-term music training tunes how the brain temporally binds signals from multiple senses

Cited by 150 publications

References 47 publications

The unity assumption facilitates cross-modal binding of musical, non-speech stimuli: The role of spectral and amplitude envelope cues

The unity assumption facilitates cross-modal binding of musical, non-speech stimuli: The role of spectral and amplitude envelope cues

Rhythm in joint action: psychological and neurophysiological mechanisms for real-time interpersonal coordination

The Plasticity of Brain Networks as a Basis for a Science of Nervous System Rehabilitation

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