Selective brain responses to objects arise within a few hundreds of milliseconds of neural processing, suggesting that visual object recognition is mediated by rapid feed-forward activations. Yet disruption of neural responses in early visual cortex beyond feed-forward processing stages affects object recognition performance. Here, we unite these discrepant findings by reporting that object recognition involves enhanced feedback activity (recurrent processing within early visual cortex) when target objects are embedded in natural scenes that are characterized by high complexity. Human participants performed an animal target detection task on natural scenes with low, medium or high complexity as determined by a computational model of low-lev...
When a visual scene, containing many discrete objects, is presented to our retinae, only a subset of...
Mounting evidence suggests that ‘core object recognition,’ the ability to rapidly recognize objects ...
Human visual recognition activates a dense network of overlapping feedforward and recurrent neuronal...
Selective brain responses to objects arise within a few hundreds of milliseconds of neural processin...
Selective brain responses to objects arise within a few hundreds of milliseconds of neural processin...
Numerous psychophysical experiments have shown an important role for attentional modulations in visi...
The human visual system can only represent a small subset of the many objects present in cluttered s...
Early stages of visual processing are carried out by neural circuits activated by simple and specifi...
SummaryThe difficulty of visual recognition stems from the need to achieve high selectivity while ma...
Our remarkable ability to process complex visual scenes is supported by a network of scene-selective...
We can recognize objects in complex images in a fraction of a second. Neuronal responses in macaque ...
Existing models of visual object recognition posit that recognition is orchestrated by a hierarchy o...
SummaryThe computational processes by which attention improves behavioral performance were character...
SummaryWe can recognize objects in complex images in a fraction of a second [1–3]. Neuronal response...
My studies using gaze behavior and V1 activity showed that, as part of the object recognition proces...
When a visual scene, containing many discrete objects, is presented to our retinae, only a subset of...
Mounting evidence suggests that ‘core object recognition,’ the ability to rapidly recognize objects ...
Human visual recognition activates a dense network of overlapping feedforward and recurrent neuronal...
Selective brain responses to objects arise within a few hundreds of milliseconds of neural processin...
Selective brain responses to objects arise within a few hundreds of milliseconds of neural processin...
Numerous psychophysical experiments have shown an important role for attentional modulations in visi...
The human visual system can only represent a small subset of the many objects present in cluttered s...
Early stages of visual processing are carried out by neural circuits activated by simple and specifi...
SummaryThe difficulty of visual recognition stems from the need to achieve high selectivity while ma...
Our remarkable ability to process complex visual scenes is supported by a network of scene-selective...
We can recognize objects in complex images in a fraction of a second. Neuronal responses in macaque ...
Existing models of visual object recognition posit that recognition is orchestrated by a hierarchy o...
SummaryThe computational processes by which attention improves behavioral performance were character...
SummaryWe can recognize objects in complex images in a fraction of a second [1–3]. Neuronal response...
My studies using gaze behavior and V1 activity showed that, as part of the object recognition proces...
When a visual scene, containing many discrete objects, is presented to our retinae, only a subset of...
Mounting evidence suggests that ‘core object recognition,’ the ability to rapidly recognize objects ...
Human visual recognition activates a dense network of overlapping feedforward and recurrent neuronal...