An Adaptive, Dynamical Model of Linguistic Rhythm Sean McLennan Proposal Defense 040406.
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Transcript of An Adaptive, Dynamical Model of Linguistic Rhythm Sean McLennan Proposal Defense 040406.
An Adaptive, Dynamical Model of Linguistic Rhythm
Sean McLennanProposal Defense 040406
Proposal Defense - Sean McLennan - 040406
Underlying Intuitions
• Somewhere between the signal and low level speech recognition, linguistic time is imposed upon real time.
• Linguistic time is more relevant to speech recognition than real time.
• Not all segments are created equal - certain points / intervals in the speech stream are more important for recognition than others.
Proposal Defense - Sean McLennan - 040406
What “Rhythm” Is and Is Not
Rhythm - historically based primarily on the perception that different languages are temporally organized differently
Three recognized rhythmic types: stress-timed (English), syllable-timed (French), and mora-timed (Japanese)
Rhythm implies underlying isochrony which turns out to be absent (ex. Dauer, 1983)
Proposal Defense - Sean McLennan - 040406
Recent Views of Rhythm
Ramus and colleagues:• examined three factors: %V ΔV ΔC
• %V = proportion of vocalic intervals in the signal• ΔV = variation of length of vocalic intervals• ΔC = variation of length of consonantal intervals
Proposal Defense - Sean McLennan - 040406
Recent Views of Rhythm
Proposal Defense - Sean McLennan - 040406
Recent Views of Rhythm
Proposal Defense - Sean McLennan - 040406
Recent Views of Rhythm
Proposal Defense - Sean McLennan - 040406
Rhythm and Segmentation
Cutler and Colleagues• study the question of how rhythm type impacts on
the segmentation of words from the speech stream• implication being that a naïve listener (i.e. an
infant) uses rhythm as a bootstrap for early stages of acquisition
• Showed that boundaries are imposed on the speech stream in a rhythm-class-appropriate manner
Proposal Defense - Sean McLennan - 040406
The Proposed Model
• hopefully a bridge between Cutler et al and Ramus et al - why should %V ΔV ΔC impact on segmentation?
• can a naïve adaptive model responsive to %V ΔV and ΔC produce behavior consistent with segmentation based on rhythm-type?
Proposal Defense - Sean McLennan - 040406
The Proposed Model - Where
Finding salient points in the signal:
Proposal Defense - Sean McLennan - 040406
The Proposed Model - How Much
• %V ΔV and ΔC need two points to be consistently tracked: vocalic onsets and offsets
Proposal Defense - Sean McLennan - 040406
The Proposed Model - How Much
• Use these spikes to drive an adaptive oscillator• Unlikely to entrain but will make predictions
Proposal Defense - Sean McLennan - 040406
The Proposed Model - How Much
• The accuracy of prediction will be a measure of ΔC and ΔV
• Difference in the period will be a measure of %V
Proposal Defense - Sean McLennan - 040406
The Proposed Model - How Much
ΔV
Voc
Cons
ΔC
Proposal Defense - Sean McLennan - 040406
Proposed Model - How MuchProof of Concept - Periodic Signal
Proposal Defense - Sean McLennan - 040406
Proposed Model - How MuchProof of Concept - Aperiodic Signal
Proposal Defense - Sean McLennan - 040406
The Proposed Model - How Much
• Attentional window size (hopefully) would correlate with rhythm type and would predict different potential segmentation boundaries
Proposal Defense - Sean McLennan - 040406
The Proposed Model
Predictions, questions, and other benefits:• consistent with the correlation between rhythmic
type and consonant cluster complexity• consistent with ambisyllabicity• perhaps attractor states predict categorical
differences• suggests manner in which to manipulate tasks to
force effects particularly with respect to speaking rate and rhythmic priming
• single language-independent mechanism