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Our survival in the ever-changing world we live in requires that we pick up and use sensory information from our environment so that we can successfully interact with other objects and/or people. More specifically, changing patterns of sensory stimuli provide the brain with important information that allows us to organise and control our actions ahead of time. In this presentation I will explore how the brain can use this sensory information to guide movement.
More specifically, I will discuss how we can harness the power of dynamic sensory stimuli, in particular sound, to create auditory guides that help improve the control of our actions. In the first example will look at how sound can help improve the consistency of action when learning to perform a new self-paced skill, that draws on the main principles involved when putting a ball in golf.
The second example will explore how sound can be effectively used to help improve movement performance in people with Parkinson’s disease. Limitations associated with sound synthesis along with the future direction this emerging area of research could take will be discussed.
We have acquired, through our sensorimotor system, a strong relationship with the auditory space that surrounds us. We have implicitly learned to integrate the sound of our actions and use them everyday. The development of motion sensing an
March 2, 2015 55 min
We present several tools we developed for designing interactive sonification strategies. In particular, we developed an ecological approach of continuous movement sonification we call “mapping by demonstration”. The relationship between mot
March 2, 2015 33 min
The LEGOS project is a collaborative research project that focuses on sensorimotor learning in gesture-sound systems (the consortium includes IRCAM and UMR CNRS 8242 – Université Paris Descartes). We develop and evaluate movement based
March 2, 2015 20 min
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