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J J Wright

Showing results (41-50 of 141) with videos related to

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Electroencephalography and Clinical Neurophysiology|May 1, 1994
Computer simulation of electrocortical activity at millimetric scaleJ J Wright, A A Sergejew, D T Liley
Journal of Theoretical Biology|June 22, 2000
Mechanisms of cortical electrical activity and emergence of gamma rhythmC J Rennie, J J Wright, P A Robinson
Biological Cybernetics|January 1, 1990
Autoregression models of EEG. Results compared with expectations for a multilinear near-equilibrium biophysical processJ J Wright, R R Kydd, A A Sergejew
Vision Research|April 8, 2006
Contribution of lateral interactions in V1 to organization of response propertiesJ J Wright, D M Alexander, P D Bourke
Applied Optics|January 30, 2010
Logarithmic detector for pulsed lasersD H Allen, P O Isaacson, J J Wright
The International Journal of Neuroscience|March 1, 1987
Gross electrocortical activity as a linear wave phenomenon with variable temporal damping, regulated by ascending catecholamine neuronesJ J Wright, R R Kydd, G J Lees
Psychopharmacology|January 1, 1985
Relationship between sensorimotor neglect and the specificity, degree and locus of mesotelencephalic dopaminergic cell loss following 6-hydroxydopamineG J Lees, R R Kydd, J J Wright
Biological Cybernetics|January 1, 1985
Quantitation of a mass action of dopaminergic neurones regulating temporal damping of linear electrocortical wavesJ J Wright, R R Kydd, G J Lees
Biological Cybernetics|January 1, 1985
Contributions of noradrenergic neurones of the locus coeruleus to the temporal damping of linear electrocortical wavesJ J Wright, R R Kydd, G J Lees
Biological Cybernetics|January 1, 1984
Amplitude and phase relations of electrocortical waves regulated by transhypothalamic dopaminergic neurones: a test for a linear theoryJ J Wright, R R Kydd, G J Lees
Pageof 15

Showing results (41-50 of 141) with videos related to

Sort By:
Pageof 15
Electroencephalography and Clinical Neurophysiology|May 1, 1994
Computer simulation of electrocortical activity at millimetric scaleJ J Wright, A A Sergejew, D T Liley
Journal of Theoretical Biology|June 22, 2000
Mechanisms of cortical electrical activity and emergence of gamma rhythmC J Rennie, J J Wright, P A Robinson
Biological Cybernetics|January 1, 1990
Autoregression models of EEG. Results compared with expectations for a multilinear near-equilibrium biophysical processJ J Wright, R R Kydd, A A Sergejew
Vision Research|April 8, 2006
Contribution of lateral interactions in V1 to organization of response propertiesJ J Wright, D M Alexander, P D Bourke
Applied Optics|January 30, 2010
Logarithmic detector for pulsed lasersD H Allen, P O Isaacson, J J Wright
The International Journal of Neuroscience|March 1, 1987
Gross electrocortical activity as a linear wave phenomenon with variable temporal damping, regulated by ascending catecholamine neuronesJ J Wright, R R Kydd, G J Lees
Psychopharmacology|January 1, 1985
Relationship between sensorimotor neglect and the specificity, degree and locus of mesotelencephalic dopaminergic cell loss following 6-hydroxydopamineG J Lees, R R Kydd, J J Wright
Biological Cybernetics|January 1, 1985
Quantitation of a mass action of dopaminergic neurones regulating temporal damping of linear electrocortical wavesJ J Wright, R R Kydd, G J Lees
Biological Cybernetics|January 1, 1985
Contributions of noradrenergic neurones of the locus coeruleus to the temporal damping of linear electrocortical wavesJ J Wright, R R Kydd, G J Lees
Biological Cybernetics|January 1, 1984
Amplitude and phase relations of electrocortical waves regulated by transhypothalamic dopaminergic neurones: a test for a linear theoryJ J Wright, R R Kydd, G J Lees
Pageof 15