Foveal flicker sensitivity at 0.5–30 Hz was measured as a function of the spectral density of external, white, purely temporal noise for a sharp-edged 2.5 deg circular spot (mean luminance 3.4 log phot td). Sensitivity at any given temporal frequency was constant at low powers of external noise, but then decreased in inverse proportion to the square root of noise spectral density. Without external noise, sensitivity as function of temporal frequency had the well-known band-pass characteristics peaking at about 10 Hz, as previously documented in a large number of studies. In the presence of strong external noise, however, sensitivity was a monotonically decreasing function of temporal frequency. Our data are well described (goodness of fit 9...
AbstractThresholds for detecting brief, white, foveal test flashes drop abruptly within 0.2 sec of t...
AbstractWe extended the contrast detection model of human vision to temporal integration by taking i...
A model is presented for the early (retinal) stages of temporal processing of light inputs in the vi...
AbstractFlicker sensitivities (1–30 Hz) in foveal, photopic vision were measured as functions of sti...
AbstractWe measured foveal flicker sensitivity with and without external added temporal noise at var...
The range of c. 1012 ambient light levels to which we can be exposed massively exceeds the <103 resp...
AbstractThis study evaluated the influence of superimposed luminance flicker on the detection of osc...
The photopic motion sensitivity function of the energybased motion system is band-pass peaking aroun...
PURPOSE. Because of the limited contrast range, increasing the duration of the noise frame is often ...
The present study aims to connect the psychophysical research on the human visual perception of flic...
PURPOSE. Because of the limited contrast range, increasing the duration of the noise frame is often ...
AbstractHow does our temporal vision change as the mean illuminance reduces? We have examined the pr...
AbstractThe general validity of both the Rovamo [Vision Res. 39 (1999) 533] and Barten (Contrast sen...
How does our temporal vision change as the mean illuminance reduces? We have examined the processing...
AbstractSymmetric flicker modulates about a background light level and effects no change in the time...
AbstractThresholds for detecting brief, white, foveal test flashes drop abruptly within 0.2 sec of t...
AbstractWe extended the contrast detection model of human vision to temporal integration by taking i...
A model is presented for the early (retinal) stages of temporal processing of light inputs in the vi...
AbstractFlicker sensitivities (1–30 Hz) in foveal, photopic vision were measured as functions of sti...
AbstractWe measured foveal flicker sensitivity with and without external added temporal noise at var...
The range of c. 1012 ambient light levels to which we can be exposed massively exceeds the <103 resp...
AbstractThis study evaluated the influence of superimposed luminance flicker on the detection of osc...
The photopic motion sensitivity function of the energybased motion system is band-pass peaking aroun...
PURPOSE. Because of the limited contrast range, increasing the duration of the noise frame is often ...
The present study aims to connect the psychophysical research on the human visual perception of flic...
PURPOSE. Because of the limited contrast range, increasing the duration of the noise frame is often ...
AbstractHow does our temporal vision change as the mean illuminance reduces? We have examined the pr...
AbstractThe general validity of both the Rovamo [Vision Res. 39 (1999) 533] and Barten (Contrast sen...
How does our temporal vision change as the mean illuminance reduces? We have examined the processing...
AbstractSymmetric flicker modulates about a background light level and effects no change in the time...
AbstractThresholds for detecting brief, white, foveal test flashes drop abruptly within 0.2 sec of t...
AbstractWe extended the contrast detection model of human vision to temporal integration by taking i...
A model is presented for the early (retinal) stages of temporal processing of light inputs in the vi...