Acoustic speech output results from coordinated articulation of dozens of muscles, bones and cartilages of the vocal mechanism. While we commonly take the fluency and speed of our speech productions for granted, the neural mechanisms facilitating the requisite muscular control are not completely understood. Previous neuroimaging and electrophysiology studies of speech sensorimotor control has typically concentrated on speech sounds (i.e., phonemes, syllables and words) in isolation; sentence-length investigations have largely been used to inform coincident linguistic processing. In this study, we examined the neural representations of segmental features (place and manner of articulation, and voicing status) in the context of fluent, continu...
The human brain contains a remarkable sensory system that allows us to effortlessly process speech. ...
Speech production is under-studied compared to speech perception largely due to complications in dat...
Speech production involves the integration of auditory, somatosensory, and motor information in the ...
Acoustic speech output results from coordinated articulation of dozens of muscles, bones and cartila...
International audienceAcoustic speech output results from coordinated articulation of dozens of musc...
Speech production is a highly complex sensorimotor task involving tightly coordinated processing acr...
Speech production engages a variety of subprocesses, including conceptual preparation, lexical selec...
To speak is to dynamically orchestrate the movements of the articulators (jaw, tongue, lips, and lar...
Speech processing entails a complex interplay between bottom-up and top-down computations. The forme...
Speaking is one of the most complex actions we perform, yet nearly all of us learn to do it effortle...
The data used in the analyses reported in this paper are available on KU Scholarworks at https://hdl...
The ability of the human brain to represent senses reliably and command a motor response is central ...
Recent work has shown that it is possible to decode aspects of continuously-spoken speech from elect...
During speech production, we make vocal tract movements with remarkable precision and speed.Starting...
Published: 11 March 2020Speaking involves coordination of multiple neuromotor systems, including res...
The human brain contains a remarkable sensory system that allows us to effortlessly process speech. ...
Speech production is under-studied compared to speech perception largely due to complications in dat...
Speech production involves the integration of auditory, somatosensory, and motor information in the ...
Acoustic speech output results from coordinated articulation of dozens of muscles, bones and cartila...
International audienceAcoustic speech output results from coordinated articulation of dozens of musc...
Speech production is a highly complex sensorimotor task involving tightly coordinated processing acr...
Speech production engages a variety of subprocesses, including conceptual preparation, lexical selec...
To speak is to dynamically orchestrate the movements of the articulators (jaw, tongue, lips, and lar...
Speech processing entails a complex interplay between bottom-up and top-down computations. The forme...
Speaking is one of the most complex actions we perform, yet nearly all of us learn to do it effortle...
The data used in the analyses reported in this paper are available on KU Scholarworks at https://hdl...
The ability of the human brain to represent senses reliably and command a motor response is central ...
Recent work has shown that it is possible to decode aspects of continuously-spoken speech from elect...
During speech production, we make vocal tract movements with remarkable precision and speed.Starting...
Published: 11 March 2020Speaking involves coordination of multiple neuromotor systems, including res...
The human brain contains a remarkable sensory system that allows us to effortlessly process speech. ...
Speech production is under-studied compared to speech perception largely due to complications in dat...
Speech production involves the integration of auditory, somatosensory, and motor information in the ...