Research area
- Relationships between perception and action
- Sensorimotor synchronization and music cognition
- Rhythm perception and production
- Dissociation between music and language in sensorimotor synchronization
- Electroencephalography and event-related potentials
Contact
Publications
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Under revision
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Białuńska, A., Dalla Bella, S., i Sowiński, J. (under revision). Why movement is captured by music, less by speech. Journal of Experimental Psychology, Human Perception and Performance
- Bialunska, A., & Dalla Bella, S. (under revision). Captured by music, less by speech.
2010
- Białuńska,
A.,
Dalla Bella,
S., i Ja¶kowski, P. (in press). Increasing
stimulus intensity reduces reaction time, but does not affect
sensorimotor
synchronization. Psychological
Research.
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2007
- Ja¶kowski, P., Białuńska, A.,
Tomanek, M., Verleger, R
(2007). Mask- and
distractor-triggered inhibitory processes in the priming of motor
responses: An
EEG study. Psychophysiology
- Ja¶kowski, P., Białuńska, A.,
Tomanek, M., Verleger, R
(2007). Mask- and
distractor-triggered inhibitory processes in the priming of motor
responses: An
EEG study. Psychophysiology
Published abstracts
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2007
- Białuńska, A., & Dalla Bella, S. (2007). Music disrupts pressure force more than speech during sensorimotor synchronization. Proceedings of the Meeting of the Society for Music Perception and Cognition (SMPC), 86.
- Dalla Bella, S., & Białuńska, A. (2007). Movement is more strongly attracted to music than to speech. Supplement of the Journal of Cognitive Neuroscience, 150-151.
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2006
- Białuńska, A., Ja¶kowski, P., & Dalla Bella, S. (2006). Changing the pacing stimulus intensity does not affect sensorimotor synchronization. Proceedings of the 9th International Conference on Music Perception and Cognition. 426-427.
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2005
- Białuńska, A., Ja¶kowski, P., & Dalla Bella, S. (2005). Effect of stimulus intensity on sensorimotor synchronization. Proceedings of the XXXIInd Scientific Congress of of the Polish Psychological Association, 147.
