AbstractThe spatial representation of a visual scene in the early visual system is well known. The optics of the eye map the three-dimensional environment onto two-dimensional images on the retina. These retinotopic representations are preserved in the early visual system. Retinotopic representations and processing are among the most prevalent concepts in visual neuroscience. However, it has long been known that a retinotopic representation of the stimulus is neither sufficient nor necessary for perception. Saccadic Stimulus Presentation Paradigm and the Ternus–Pikler displays have been used to investigate non-retinotopic processes with and without eye movements, respectively. However, neither of these paradigms eliminates the retinotopic r...
Visual processing starts with retinotopic encoding: neighboring points in the real world are project...
AbstractMany visual attributes of a target stimulus are computed according to dynamic, non-retinotop...
Observers made a saccade between two fixation markers while a probe was flashed sequentially at two ...
AbstractThe spatial representation of a visual scene in the early visual system is well known. The o...
The spatial representation of a visual scene in the early visual system is well known. The optics of...
At every moment, the image the world projects on our eyes undergoes rapid and dramatic changes due t...
The early visual system is organized retinotopically. However, under ecological viewing conditions, ...
AbstractThe human visual system computes features of moving objects with high precision despite the ...
The early visual system is organized retinotopically. However, motion perception occurs in non-retin...
The human visual system computes features of moving objects with high precision despite the fact tha...
The visual representation of the world is often assumed to be retinotopic, and many visual brain are...
How does the brain determine the position of moving objects? It turns out to be rather complex to an...
How does the brain determine the position of moving objects? It turns out to be rather complex to an...
Recently, M. Boi, H. Ogmen, J. Krummenacher, T. U. Otto, & M. H. Herzog (2009) reported a fascinatin...
How features are attributed to objects is one of the most puzzling issues in the neurosciences. Acco...
Visual processing starts with retinotopic encoding: neighboring points in the real world are project...
AbstractMany visual attributes of a target stimulus are computed according to dynamic, non-retinotop...
Observers made a saccade between two fixation markers while a probe was flashed sequentially at two ...
AbstractThe spatial representation of a visual scene in the early visual system is well known. The o...
The spatial representation of a visual scene in the early visual system is well known. The optics of...
At every moment, the image the world projects on our eyes undergoes rapid and dramatic changes due t...
The early visual system is organized retinotopically. However, under ecological viewing conditions, ...
AbstractThe human visual system computes features of moving objects with high precision despite the ...
The early visual system is organized retinotopically. However, motion perception occurs in non-retin...
The human visual system computes features of moving objects with high precision despite the fact tha...
The visual representation of the world is often assumed to be retinotopic, and many visual brain are...
How does the brain determine the position of moving objects? It turns out to be rather complex to an...
How does the brain determine the position of moving objects? It turns out to be rather complex to an...
Recently, M. Boi, H. Ogmen, J. Krummenacher, T. U. Otto, & M. H. Herzog (2009) reported a fascinatin...
How features are attributed to objects is one of the most puzzling issues in the neurosciences. Acco...
Visual processing starts with retinotopic encoding: neighboring points in the real world are project...
AbstractMany visual attributes of a target stimulus are computed according to dynamic, non-retinotop...
Observers made a saccade between two fixation markers while a probe was flashed sequentially at two ...