scholarly article | Q13442814 |
P2093 | author name string | Mark E McCourt | |
Barbara Blakeslee | |||
Davis Cope | |||
P2860 | cites work | Normalization as a canonical neural computation | Q28253709 |
Functional mechanisms shaping lateral geniculate responses to artificial and natural stimuli | Q28281107 | ||
The suppressive field of neurons in lateral geniculate nucleus | Q28283428 | ||
Genes, dopamine and cortical signal-to-noise ratio in schizophrenia | Q34357471 | ||
Analysis of multidimensional difference-of-Gaussians filters in terms of directly observable parameters. | Q37213168 | ||
Modeling lateral geniculate nucleus response with contrast gain control. Part 1: formulation | Q37571957 | ||
Tonic retinal influences in primates | Q39604544 | ||
Luxotonic responses of units in macaque striate cortex | Q39694920 | ||
The potential importance of saturating and supersaturating contrast response functions in visual cortex | Q40263693 | ||
Intensity coding in primate visual system | Q41376173 | ||
Receptive field properties and laminar organization of lateral geniculate nucleus in the gray squirrel (Sciurus carolinensis). | Q42163476 | ||
GABA and Its Agonists Improved Visual Cortical Function in Senescent Monkeys | Q44429563 | ||
A comparison of visual responses in the lateral geniculate nucleus of alert and anaesthetized macaque monkeys | Q44511931 | ||
Possible neural basis of brighness magnitude estimations | Q44605235 | ||
Spatial frequency-specific contrast adaptation originates in the primary visual cortex. | Q45953984 | ||
Contrast-dependent nonlinearities arise locally in a model of contrast-invariant orientation tuning | Q46199349 | ||
Effects of aging on the primate visual system: spatial and temporal processing by lateral geniculate neurons in young adult and old rhesus monkeys | Q48097347 | ||
Contrast affects the transmission of visual information through the mammalian lateral geniculate nucleus | Q48203247 | ||
Visual receptive-field properties of single neurons in cat's ventral lateral geniculate nucleus | Q48309638 | ||
Luminance-evoked inhibition in primary visual cortex: a transient veto of simultaneous and ongoing response. | Q48326596 | ||
Spatial and temporal contrast sensitivities of neurones in lateral geniculate nucleus of macaque | Q48593856 | ||
Maintained activity of monkey optic tract fibers and lateral geniculate nucleus cells | Q48761740 | ||
Maintained activity of lateral geniculate nucleus neurons as a function of background luminance | Q48793074 | ||
Center-surround balance in receptive fields of cells in the lateral geniculate nucleus | Q48887477 | ||
Integrative action in the cat's lateral geniculate body. | Q51304073 | ||
Single unit activity in lateral geniculate body and optic tract of unrestrained cats | Q51311364 | ||
Brightness sensation in a ganzfeld | Q68224264 | ||
Adaptation of visually evoked responses of relay cells in the dorsal lateral geniculate nucleus of the cat following prolonged exposure to drifting gratings | Q71684208 | ||
Receptive fields of P and M ganglion cells across the primate retina | Q72487969 | ||
Profound contrast adaptation early in the visual pathway | Q79878214 | ||
P433 | issue | 2 | |
P304 | page(s) | 348-362 | |
P577 | publication date | 2014-02-01 | |
P1433 | published in | Journal of the Optical Society of America | Q6296174 |
P1476 | title | Modeling lateral geniculate nucleus response with contrast gain control. Part 2: analysis | |
P478 | volume | 31 |
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