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Sensory feedback during speech: The brain attunes to more than just sound
October 10, 2006Using robotics to manipulate the brain's perception of jaw movement while words are spoken, researchers have deepened our understanding of the importance of non-auditory sensory cues in the brain's control of speech. The findings are reported by Sazzad Nasir and David Ostry of McGill University and appear in the October 10th issue of the journal Current Biology, published by Cell Press.
When we speak, our ability to effectively produce words is dependent not only on auditory feedback signals to the brain, but also on so-called somatosensory information that informs the brain of the relative positioning of different parts of the body-a process known as proprioception. Cues of this sort that might be relevant during speech include those that inform the brain of the openness of the jaw or the changing positions of the tongue or lips.
To investigate how such somatosensory cues are used during speech production, the researchers in the new work were able to dissociate the contribution of these cues from auditory cues by using a robotic device that slightly altered the path of the jaw's motion at different points during speech, but did not significantly disrupt the acoustic quality of the words being spoken. The researchers were able to manipulate jaw motion at specific points during speaking and were thereby able to specifically target vowel or consonant sounds to study whether the production of certain types of sound was especially sensitive to somatosensory cues. The researchers found that over time, the subjects in the experiments learned to compensate for the robotic interference, thereby "correcting" the somatosensory feedback the brain receives during speech. This learning took place even when speech sounded normal, and it occurred when the robotic interference was applied during both vowel and consonant sound production.
The findings support the idea that accurate acoustic quality is not the brain's only goal during the motor control of speech-precision in expected somatosensory feedback cues is also an important endpoint.
Cell Press
The findings support the idea that accurate acoustic quality is not the brain's only goal during the motor control of speech-precision in expected somatosensory feedback cues is also an important endpoint.
Cell Press
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More than aiding balance, vestibular organs provide an on-line movement guidance system
Anyone who's had to find his or her way through a darkened room can appreciate that nonvisual cues play a large role in our sense of movement.
More Sensory Feedback Current Events and Sensory Feedback News Articles
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Delayed Sensory Feedback and Behavior by Karl Smith (Author) | |
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Delayed sensory feedback and behavior by Karl U Smith (Author) | |
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Delayed Sensory Feedback and Behavior. by Karl U Smith (Author) | |
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Visual Servoing: Real-Time Control of Robot Manipulators Based on Visual Sensory Feedback (World Scientific Series in Robotics and Automated Systems) by Koichi Hashimoto (Editor) Visual feedback control of mechanical systems, mostly robotic manipulators, is the subject of this book. It deals not only with image processing techniques and robot control schemes but also covers the latest investigation on design of visual servo mechanisms based on modern linear and nonlinear control theory, adaptive control scheme, fuzzy logic and neural networks. New concepts for utilizing visual sensory information to real-time manipulator control are derived and the performance is evaluated through simulations and/or experiments. The contributors to this book are from robotics specialists from all over the world. This book gives a practical perspective on visual servoing to the researcher, engineers and students working on this topic. | |
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Visual Serving: Real Time Control of Robot Manipulators Based on Visual Sensory Feedback by Koichi Hashimoto (Author) |
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Stuttering and sensory gating: A study of acoustic startle prepulse inhibition [An article from: Brain and Language] by P.A. Alm (Author) This digital document is a journal article from Brain and Language, published by Elsevier in 2006. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser. Description: It was hypothesized that stuttering may be related to impaired sensory gating, leading to overflow of superfluous disturbing auditory feedback and breakdown of the speech sequence. This hypothesis was tested using the acoustic startle prepulse inhibition (PPI) paradigm. A group of 22 adults with developmental stuttering were compared with controls regarding the degree of PPI. No significant differences were found between the stuttering adults and the control group; the groups showed similar means and distribution.... | |
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The use of sensory feedback in a programmable assembly system by Robert C Bolles (Author) | |
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Using compliance in lieu of sensory feedback for automatic assembly (Massachusetts Institute of Technology. Dept. of Mechanical Engineering. Thesis. 1978. Sc. D) by Samuel Hunt Drake (Author) | |
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Sensory feedback for remote control of a continuous miner: Final technical report (DOE) by Irving Fox (Author) | |
![Alpha power dependent light stimulation: dynamics of event-related (de)synchronization in human electroencephalogram [An article from: Cognitive Brain Research]](http://ecx.images-amazon.com/images/I/51w5k0y0LAL._SL160_.jpg) |
Alpha power dependent light stimulation: dynamics of event-related (de)synchronization in human electroencephalogram [An article from: Cognitive Brain Research] by M. Woertz (Author), G. Pfurtscheller (Author), W. Klimesch (Author) This digital document is a journal article from Cognitive Brain Research, published by Elsevier in 2004. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser. Description: The desynchronization and resynchronization of alpha oscillations was studied in 10 normal subjects after visual stimulation of both eyes under two experimental conditions, ''eyes opened'' and ''eyes closed''. The electroencephalogram (EEG) was recorded bipolarly over the occipital area and sampled at 200 Hz. The data was processed in real time and evaluated online. In accordance with the alpha power in the 7 to 13 Hz band, short red light flashes of 10 ms duration were presented at intervals of at least 2 s.... |
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