Open access
Date
2017-01-30Type
- Journal Article
Abstract
Motor systems are highly adaptive. Both birds and humans compensate for synthetically induced shifts in the pitch (fundamental frequency) of auditory feedback stemming from their vocalizations. Pitch-shift compensation is partial in the sense that large shifts lead to smaller relative compensatory adjustments of vocal pitch than small shifts. Also, compensation is larger in subjects with high motor variability. To formulate a mechanistic description of these findings, we adapt a Bayesian model of error relevance. We assume that vocal-auditory feedback loops in the brain cope optimally with known sensory and motor variability. Based on measurements of motor variability, optimal compensatory responses in our model provide accurate fits to published experimental data. Optimal compensation correctly predicts sensory acuity, which has been estimated in psychophysical experiments as just-noticeable pitch differences. Our model extends the utility of Bayesian approaches to adaptive vocal behaviors. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000128610Publication status
publishedExternal links
Journal / series
PLoS ONEVolume
Pages / Article No.
Publisher
PLOSOrganisational unit
03774 - Hahnloser, Richard H.R. / Hahnloser, Richard H.R.
Funding
156976 - Vocal tuning and sequencing in songbirds and in humans (SNF)
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