The Dynamic Articulatory Model DYNARTmo: Dynamic Movement Generation and Speech Gestures
This work addresses speech production modeling for researchers in computational linguistics and neuroscience, but it appears incremental as it describes the current implementation of an existing model.
The paper introduces DYNARTmo, a dynamic articulatory model that generates continuous articulator movements from speech gestures and a gesture score, providing a neurobiologically inspired framework for simulating hierarchical speech production control from linguistic representation to articulatory-acoustic realization.
This paper describes the current implementation of the dynamic articulatory model DYNARTmo, which generates continuous articulator movements based on the concept of speech gestures and a corresponding gesture score. The model provides a neurobiologically inspired computational framework for simulating the hierarchical control of speech production from linguistic representation to articulatory-acoustic realization. We present the structure of the gesture inventory, the coordination of gestures in the gesture score, and their translation into continuous articulator trajectories controlling the DYNARTmo vocal tract model.