Sofia Dahl scite author profile

JSTOR is a not-for-profit service that helps scholars, researchers, and students discover, use, and build upon a wide range of content in a trusted digital archive. We use information technology and tools to increase productivity and facilitate new forms of scholarship. For more information about JSTOR, please contact support@jstor.org.. University of California Press is collaborating with JSTOR to digitize, preserve and extend access to Music Perception: An Interdisciplinary Journal. MUSICIANS OFTEN MAKE GESTURES and move their bodies expressing a musical intention. In order to explore to what extent emotional intentions can be conveyed through musicians' movements, participants watched and rated silent video clips of musicians performing the emotional intentions Happy, Sad, Angry, and Fearful. In the first experiment participants rated emotional expression and movement character of marimba performances. The results showed that the intentions Happiness, Sadness, and Anger were well communicated, whereas Fear was not. Showing selected parts of the player only slightly influenced the identification of the intended emotion. In the second experiment participants rated the same emotional intentions and movement character for performances on bassoon and soprano saxophone. The ratings from the second experiment confirmed that Fear was not communicated whereas Happiness, Sadness, and Anger were recognized. The rated movement cues were similar in the two experiments and were analogous to their audio counterpart in music performance.

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Multisensory integration of drumming actions: musical expertise affects perceived audiovisual asynchrony

Petrini

Dahl

Rocchesso

et al. 2009

Exp Brain Res

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We investigated the effect of musical expertise on sensitivity to asynchrony for drumming point-light displays, which varied in their physical characteristics (Experiment 1) or in their degree of audiovisual congruency (Experiment 2). In Experiment 1, 21 repetitions of three tempos x three accents x nine audiovisual delays were presented to four jazz drummers and four novices. In Experiment 2, ten repetitions of two audiovisual incongruency conditions x nine audiovisual delays were presented to 13 drummers and 13 novices. Participants gave forced-choice judgments of audiovisual synchrony. The results of Experiment 1 show an enhancement in experts' ability to detect asynchrony, especially for slower drumming tempos. In Experiment 2 an increase in sensitivity to asynchrony was found for incongruent stimuli; this increase, however, is attributable only to the novice group. Altogether the results indicated that through musical practice we learn to ignore variations in stimulus characteristics that otherwise would affect our multisensory integration processes.

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Action expertise reduces brain activity for audiovisual matching actions: An fMRI study with expert drummers

et al. 2011

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When we observe someone perform a familiar action, we can usually predict what kind of sound that action will produce. Musical actions are over-experienced by musicians and not by non-musicians, and thus offer a unique way to examine how action expertise affects brain processes when the predictability of the produced sound is manipulated. We used functional magnetic resonance imaging to scan 11 drummers and 11 age- and gender-matched novices who made judgments on point-light drumming movements presented with sound. In Experiment 1, sound was synchronized or desynchronized with drumming strikes, while in Experiment 2 sound was always synchronized, but the natural covariation between sound intensity and velocity of the drumming strike was maintained or eliminated. Prior to MRI scanning, each participant completed psychophysical testing to identify personal levels of synchronous and asynchronous timing to be used in the two fMRI activation tasks. In both experiments, the drummers' brain activation was reduced in motor and action representation brain regions when sound matched the observed movements, and was similar to that of novices when sound was mismatched. This reduction in neural activity occurred bilaterally in the cerebellum and left parahippocampal gyrus in Experiment 1, and in the right inferior parietal lobule, inferior temporal gyrus, middle frontal gyrus and precentral gyrus in Experiment 2. Our results indicate that brain functions in action-sound representation areas are modulated by multimodal action expertise.

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The Playing of an Accent ? Preliminary Observations from Temporal and Kinematic Analysis of Percussionists*

Dahl¹

2000

Journal of New Music Research

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Striking movements: A survey of motion analysis of percussionists

Dahl

2011

Acoust. Sci. & Tech.

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Like all music performance, percussion playing requires high control over timing and sound properties. Specific to percussionists, however, is the need to adjust the movement to different instruments with varying physical properties and tactile feedback to the player. Furthermore, the well defined note onsets and short interaction times between player and instrument do not allow for much adjustment once a stroke is initiated. The paper surveys research that shows a close relationship between movement and sound production, and how playing conditions such as tempo and the rebound after impact affect the movements. Furthermore, I discuss differences in movement organization, and visual information from striking movements.

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Sofia Dahl

Visual Perception of Expressiveness in Musicians' Body Movements

Multisensory integration of drumming actions: musical expertise affects perceived audiovisual asynchrony

Action expertise reduces brain activity for audiovisual matching actions: An fMRI study with expert drummers

The Playing of an Accent ? Preliminary Observations from Temporal and Kinematic Analysis of Percussionists*

Striking movements: A survey of motion analysis of percussionists

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