Testing hypotheses about the underlying deficit of apraxia of speech through computational neural modelling with the DIVA model
,
Hayo TerbandORCID Icon,Joe Rodd &Edwin Maas
Published online: 20 Oct 2019
Download citation https://doi.org/10.1080/17549507.2019.1669711 CrossMark LogoCrossMark
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Purpose: A recent behavioural experiment featuring a noise masking paradigm suggests that Apraxia of Speech (AOS) reflects a disruption of feedforward control, whereas feedback control is spared and plays a more prominent role in achieving and maintaining segmental contrasts. The present study set out to validate the interpretation of AOS as a possible feedforward impairment using computational neural modelling with the DIVA (Directions Into Velocities of Articulators) model.
Method: In a series of computational simulations with the DIVA model featuring a noise-masking paradigm mimicking the behavioural experiment, we investigated the effect of a feedforward, feedback, feedforward + feedback, and an upper motor neuron dysarthria impairment on average vowel spacing and dispersion in the production of six/bVt/speech targets.
Result: The simulation results indicate that the output of the model with the simulated feedforward deficit resembled the group findings for the human speakers with AOS best.
Conclusion: These results provide support to the interpretation of the human observations, corroborating the notion that AOS can be conceptualised as a deficit in feedforward control.
Keywords: apraxia of speech, computational modelling, vowel acoustics, feedback masking
,
Hayo TerbandORCID Icon,Joe Rodd &Edwin Maas
Published online: 20 Oct 2019
Download citation https://doi.org/10.1080/17549507.2019.1669711 CrossMark LogoCrossMark
In this articleClose
Abstract
Introduction
Method
Result
Discussion
Conclusion
References
Full Article Figures & data References Citations Metrics Licensing PDF
AbstractFormulae display:MathJax Logo?
Purpose: A recent behavioural experiment featuring a noise masking paradigm suggests that Apraxia of Speech (AOS) reflects a disruption of feedforward control, whereas feedback control is spared and plays a more prominent role in achieving and maintaining segmental contrasts. The present study set out to validate the interpretation of AOS as a possible feedforward impairment using computational neural modelling with the DIVA (Directions Into Velocities of Articulators) model.
Method: In a series of computational simulations with the DIVA model featuring a noise-masking paradigm mimicking the behavioural experiment, we investigated the effect of a feedforward, feedback, feedforward + feedback, and an upper motor neuron dysarthria impairment on average vowel spacing and dispersion in the production of six/bVt/speech targets.
Result: The simulation results indicate that the output of the model with the simulated feedforward deficit resembled the group findings for the human speakers with AOS best.
Conclusion: These results provide support to the interpretation of the human observations, corroborating the notion that AOS can be conceptualised as a deficit in feedforward control.
Keywords: apraxia of speech, computational modelling, vowel acoustics, feedback masking
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