Understanding the complex brain computations leading to object recognition requires quantitatively characterizing the information represented in inferior temporal cortex (IT), the highest stage of the primate visual stream. A read-out technique based on a trainable classifier is used to characterize the neural coding of selectivity and invariance at the population level. The activity of very small populations of independently recorded IT neurons (~100 randomly selected cells) over very short time intervals (as small as 12.5 ms) contains surprisingly accurate and robust information about both object ‘identity ’ and ‘category’, which is furthermore highly invariant to object position and scale. Significantly, selectivity and invariance are pr...
The primate visual system achieves remarkable visual object recognition performance even in brief pr...
SummaryWe can recognize objects in complex images in a fraction of a second [1–3]. Neuronal response...
The inferior temporal (IT) cortex in monkeys plays a central role in visual object recognition and l...
Understanding the complex brain computations leading to object recognition requires quantitatively c...
Understanding the brain computations leading to object recognition requires quantitative characteriz...
Biological visual systems have the remarkable ability to recognize objects despite confounding facto...
Primates can easily identify visual objects over large changes in retinal position--a property commo...
The inferior temporal cortex (IT) of the monkey has long been known to play an essential role in vis...
This chapter reviews experimental work in macaque monkeys concerning the processing of visual inform...
The firing of inferior temporal cortex neurons is tuned to objects and faces, and in a complex scene...
AbstractBackground: The inferior temporal cortex (IT) of the monkey has long been known to play an e...
Recognizing objects in cluttered scenes requires attentional mechanisms to filter out distracting in...
We can recognize objects in complex images in a fraction of a second. Neuronal responses in macaque ...
In order to investigate the possibility of a more cognitive role for inferior temporal (IT) cortex i...
In order to investigate the possibility of a more cognitive role for inferior temporal (IT) cortex i...
The primate visual system achieves remarkable visual object recognition performance even in brief pr...
SummaryWe can recognize objects in complex images in a fraction of a second [1–3]. Neuronal response...
The inferior temporal (IT) cortex in monkeys plays a central role in visual object recognition and l...
Understanding the complex brain computations leading to object recognition requires quantitatively c...
Understanding the brain computations leading to object recognition requires quantitative characteriz...
Biological visual systems have the remarkable ability to recognize objects despite confounding facto...
Primates can easily identify visual objects over large changes in retinal position--a property commo...
The inferior temporal cortex (IT) of the monkey has long been known to play an essential role in vis...
This chapter reviews experimental work in macaque monkeys concerning the processing of visual inform...
The firing of inferior temporal cortex neurons is tuned to objects and faces, and in a complex scene...
AbstractBackground: The inferior temporal cortex (IT) of the monkey has long been known to play an e...
Recognizing objects in cluttered scenes requires attentional mechanisms to filter out distracting in...
We can recognize objects in complex images in a fraction of a second. Neuronal responses in macaque ...
In order to investigate the possibility of a more cognitive role for inferior temporal (IT) cortex i...
In order to investigate the possibility of a more cognitive role for inferior temporal (IT) cortex i...
The primate visual system achieves remarkable visual object recognition performance even in brief pr...
SummaryWe can recognize objects in complex images in a fraction of a second [1–3]. Neuronal response...
The inferior temporal (IT) cortex in monkeys plays a central role in visual object recognition and l...