Motion and form encoding are closely coupled in the visual system. A number of physiological studies have shown that neurons in the striate and extrastriate cortex (e.g., V1 and MT) are selective for motion direction parallel to their preferred orientation, but some neurons also respond to motion orthogonal to their preferred spatial orientation. Recent psychophysical research (Mather, Pavan, Bellacosa, & Casco, 2012) has demonstrated that the strength of adaptation to two fields of transparently moving dots is modulated by simultaneously presented orientation signals, suggesting that the interaction occurs at the level of motion integrating receptive fields in the extrastriate cortex. In the present psychophysical study, we investigated ...
The recurrent interaction among orientation-selective neurons in the primary visual cortex (V1) is s...
Viewing static pictures of running humans evokes neural activity in the dorsal motion-sensitive cort...
Our experience with a dynamic environment has tuned our visual system to use form and motion as comp...
none3siMotion and form encoding are closely coupled in the visual system. A number of physiological ...
none4siRecent physiological and psychophysical research has challenged the traditional view that mot...
none5noThe predominant view of motion and form processing in the human visual system assumes that th...
The motion after-effect occurs after prolonged viewing of motion; a subsequent stationary scene is p...
The motion after-effect occurs after prolonged viewing of motion; a subsequent stationary scene is p...
Background: Electrophysiological recording from the extrastriate cortex of non-human primates has re...
none3noA widely held view of the visual system supported the perspective that the primate brain is o...
A long-held view of the visual system is that form and motion are independently analysed. However, t...
A widely held view of the visual system supported the perspective that the primate brain is organize...
Viewing static pictures of running humans evokes neural activity in the dorsal motion-sensitive cort...
AbstractThe processing of motion information by the visual system can be decomposed into two general...
The recurrent interaction among orientation-selective neurons in the primary visual cortex (V1) is s...
Viewing static pictures of running humans evokes neural activity in the dorsal motion-sensitive cort...
Our experience with a dynamic environment has tuned our visual system to use form and motion as comp...
none3siMotion and form encoding are closely coupled in the visual system. A number of physiological ...
none4siRecent physiological and psychophysical research has challenged the traditional view that mot...
none5noThe predominant view of motion and form processing in the human visual system assumes that th...
The motion after-effect occurs after prolonged viewing of motion; a subsequent stationary scene is p...
The motion after-effect occurs after prolonged viewing of motion; a subsequent stationary scene is p...
Background: Electrophysiological recording from the extrastriate cortex of non-human primates has re...
none3noA widely held view of the visual system supported the perspective that the primate brain is o...
A long-held view of the visual system is that form and motion are independently analysed. However, t...
A widely held view of the visual system supported the perspective that the primate brain is organize...
Viewing static pictures of running humans evokes neural activity in the dorsal motion-sensitive cort...
AbstractThe processing of motion information by the visual system can be decomposed into two general...
The recurrent interaction among orientation-selective neurons in the primary visual cortex (V1) is s...
Viewing static pictures of running humans evokes neural activity in the dorsal motion-sensitive cort...
Our experience with a dynamic environment has tuned our visual system to use form and motion as comp...