Computing stereo channels from masking data. by Glennerster, A, Parker, A

“…Using this approach, we reach the conclusion that the peak of the internal masking function for stereo detection coincides with the signal spatial frequency over the whole range tested (1.7-11.6 c/deg). …”

Computing stereo channels from masking data by Glennerster, A, Parker, A

HOW MANY SPATIAL-FREQUENCY TUNED CHANNELS ARE THERE FOR HUMAN STEREO VISION by Glennerster, A, Parker, A

Humans ignore motion and stereo cues in favor of a fictional stable world. by Glennerster, A, Tcheang, L, Gilson, S, Fitzgibbon, A, Parker, A

Dmax for stereopsis and motion in random dot displays by Glennerster, A

“…<i>d</i>_max (the disparity/displacement at which subjects make 20% errors in a forced-choice paradigm) was found to be very similar for motion and stereo at all dot densities, and to fall with increasing dot density (0.006% or two dots to 50%) according to a power law (exponent −0.2). …”

Stereoacuity thresholds in the presence of a reference surface. by Andrews, T, Glennerster, A, Parker, A

“…To control for monocular cues, changes in threshold were determined with respect to a disparity noise condition that was in all ways identical to the reference plane condition, except that the disparities of the dots were randomly assigned between 10 and +10 arc min. Stereo-thresholds were lowered by a factor of about 2 when the surface was at the same depth as the comparison line. …”

The role of spatial scale in binocular stereopsis by Glennerster, A

“…"D_max" for the motion and stereo tasks is shown to be similar over a wide range of dot densities. …”

The role of spatial scale in binocular stereopsis by Glennerster, A

“…"<em>D</em>_max" for the motion and stereo tasks is shown to be similar over a wide range of dot densities. …”