Add to ORKGThe relative numerosities and the spatial arrangement of the long-wave (L) and middle-wave (M) cones in the human and primate retina have long been debated. This topographical organization of cones is fundamental to our understanding of visual sens-itivity and of colour vision. To date, owing to the very similar structure of the L and
The color vision of Old World primates and humans uses two cone-opponent systems; one differences th...
Analysis of cone inputs to primate parvocellular ganglion cells suggests that red – green spectral o...
The determination of the relative numbers of different cone types in the human retina is fundamental...
Purpose. To determine the spatial arrangement of cones in the living human eye. Methods. Two color n...
We describe a detailed analysis of the spatial arrangement of L, M and S cones in the living eyes of...
AbstractWe describe a detailed analysis of the spatial arrangement of L, M and S cones in the living...
The spatial arrangement of L and M cones in the human peripheral retina was estimated from red-green...
The human spectral luminosity function (Vl) can be modeled as the linear sum of signals from long-wa...
We present psychophysically-based estimates of the relative numbers of long-wavelength-sensitive (L)...
Cones with peak sensitivity to light at long (L), medium (M) and short (S) wavelengths are unequal i...
The receptive field structure of long (L) to middle (M) wavelength (L/M) cone-opponent ganglion cell...
The relative numerosity of the long-wavelength-sensitive (L) and middle-wavelength-sensitive (M) con...
Cones with peak sensitivity to light at long (L), medium (M) and short (S) wavelengths are unequal i...
Processing and encoding of visual information begins at the first stage of the primate retina. Here,...
The human retina contains three classes of cone photoreceptors each sensitive to different portions ...
The color vision of Old World primates and humans uses two cone-opponent systems; one differences th...
Analysis of cone inputs to primate parvocellular ganglion cells suggests that red – green spectral o...
The determination of the relative numbers of different cone types in the human retina is fundamental...
Purpose. To determine the spatial arrangement of cones in the living human eye. Methods. Two color n...
We describe a detailed analysis of the spatial arrangement of L, M and S cones in the living eyes of...
AbstractWe describe a detailed analysis of the spatial arrangement of L, M and S cones in the living...
The spatial arrangement of L and M cones in the human peripheral retina was estimated from red-green...
The human spectral luminosity function (Vl) can be modeled as the linear sum of signals from long-wa...
We present psychophysically-based estimates of the relative numbers of long-wavelength-sensitive (L)...
Cones with peak sensitivity to light at long (L), medium (M) and short (S) wavelengths are unequal i...
The receptive field structure of long (L) to middle (M) wavelength (L/M) cone-opponent ganglion cell...
The relative numerosity of the long-wavelength-sensitive (L) and middle-wavelength-sensitive (M) con...
Cones with peak sensitivity to light at long (L), medium (M) and short (S) wavelengths are unequal i...
Processing and encoding of visual information begins at the first stage of the primate retina. Here,...
The human retina contains three classes of cone photoreceptors each sensitive to different portions ...
The color vision of Old World primates and humans uses two cone-opponent systems; one differences th...
Analysis of cone inputs to primate parvocellular ganglion cells suggests that red – green spectral o...
The determination of the relative numbers of different cone types in the human retina is fundamental...