Basic & Translational Research Projects
Devices developed for our work and made available to our colleagues
 | Neural Control of a Complex Oculomotor Plant (NIH/NEI, PI: JM Miller)
The oculomotor control systems of foveate animals precisely control the extraocular muscles to stabilize the retinal image.
Miller JM, Davison RC, Gamlin PD (2011). Motor nucleus activity fails to predict extraocular muscle forces in ocular convergence. Journal of Neurophysiology, vol 105, pgs 2863-2873 (Paper PDF).
| | Neural Control of a Complex Oculomotor Plant (NIH/NEI, PI: JM Miller)
The oculomotor control systems of foveate animals precisely control the extraocular muscles to stabilize the retinal image.
Miller JM, Davison RC, Gamlin PD (2011). Motor nucleus activity fails to predict extraocular muscle forces in ocular convergence. Journal of Neurophysiology, vol 105, pgs 2863-2873 (Paper PDF).
| | Neural Control of a Complex Oculomotor Plant (NIH/NEI, PI: JM Miller)
The oculomotor control systems of foveate animals precisely control the extraocular muscles to stabilize the retinal image.
Miller JM, Davison RC, Gamlin PD (2011). Motor nucleus activity fails to predict extraocular muscle forces in ocular convergence. Journal of Neurophysiology, vol 105, pgs 2863-2873 (Paper PDF).
|
Basic & Translational Research Projects
Devices developed for our work and made available to our colleagues
| Neural Control of a Complex Oculomotor Plant (NIH/NEI, PI: JM Miller)
The oculomotor control systems of foveate animals precisely control the extraocular muscles to stabilize the retinal image.
Miller JM, Davison RC, Gamlin PD (2011). Motor nucleus activity fails to predict extraocular muscle forces in ocular convergence. Journal of Neurophysiology, vol 105, pgs 2863-2873 (Paper PDF).
| | Neural Control of a Complex Oculomotor Plant (NIH/NEI, PI: JM Miller)
The oculomotor control systems of foveate animals precisely control the extraocular muscles to stabilize the retinal image.
Miller JM, Davison RC, Gamlin PD (2011). Motor nucleus activity fails to predict extraocular muscle forces in ocular convergence. Journal of Neurophysiology, vol 105, pgs 2863-2873 (Paper PDF).
| | Neural Control of a Complex Oculomotor Plant (NIH/NEI, PI: JM Miller)
The oculomotor control systems of foveate animals precisely control the extraocular muscles to stabilize the retinal image.
Miller JM, Davison RC, Gamlin PD (2011). Motor nucleus activity fails to predict extraocular muscle forces in ocular convergence. Journal of Neurophysiology, vol 105, pgs 2863-2873 (Paper PDF).
|
Basic & Translational Research Projects
Devices developed for our work and made available to our colleagues
|
|
Neural Control of a Complex Oculomotor Plant (NIH/NEI, PI: JM Miller)
The oculomotor control systems of foveate animals precisely control the extraocular muscles to stabilize the retinal image.
Miller JM, Davison RC, Gamlin PD (2011). Motor nucleus activity fails to predict extraocular muscle forces in ocular convergence. Journal of Neurophysiology, vol 105, pgs 2863-2873 (Paper PDF).
|
|
|
Neural Control of a Complex Oculomotor Plant (NIH/NEI, PI: JM Miller)
The oculomotor control systems of foveate animals precisely control the extraocular muscles to stabilize the retinal image.
Miller JM, Davison RC, Gamlin PD (2011). Motor nucleus activity fails to predict extraocular muscle forces in ocular convergence. Journal of Neurophysiology, vol 105, pgs 2863-2873 (Paper PDF).
|
|
|
Neural Control of a Complex Oculomotor Plant (NIH/NEI, PI: JM Miller)
The oculomotor control systems of foveate animals precisely control the extraocular muscles to stabilize the retinal image.
Miller JM, Davison RC, Gamlin PD (2011). Motor nucleus activity fails to predict extraocular muscle forces in ocular convergence. Journal of Neurophysiology, vol 105, pgs 2863-2873 (Paper PDF).
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