Understanding the brain computations leading to object recognition requires quantitative characterization of the information represented in inferior temporal (IT) cortex. We used a biologically plausible, classifier-based readout technique to investigate the neural coding of selectivity and invariance at the IT population level. The activity of small neuronal populations (È100 randomly selected cells) over very short time intervals (as small as 12.5 milliseconds) contained unexpectedly accurate and robust information about both object ‘‘identity’’ and ‘‘category.’’ This information generalized over a range of object positions and scales, even for novel objects. Coarse information about position and scale could also be read out from the same...
AbstractBackground: The inferior temporal cortex (IT) of the monkey has long been known to play an e...
Neurons in the inferior temporal (IT) cortex respond selectively to complex objects, and maintain th...
The category of visual stimuli has been reliably decoded from patterns of neural activity in extrast...
Understanding the complex brain computations leading to object recognition requires quantitatively c...
Understanding the complex brain computations leading to object recognition requires quantitatively c...
This chapter reviews experimental work in macaque monkeys concerning the processing of visual inform...
Primates can easily identify visual objects over large changes in retinal position--a property commo...
ent regions of IT while monkeys were performing a face discrimination task. The underlying assumptio...
Biological visual systems have the remarkable ability to recognize objects despite confounding facto...
The inferior temporal cortex (IT) of the monkey has long been known to play an essential role in vis...
The inferotemporal (IT) cortex is responsible for object recognition, but it is unclear how the repr...
Recognizing objects in cluttered scenes requires attentional mechanisms to filter out distracting in...
It has been shown that it is possible to read, from the firing rates of just a small population of n...
Most electrophysiology studies analyze the activity of each neuron separately. While such studies ha...
The inferior temporal (IT) cortex in monkeys plays a central role in visual object recognition and l...
AbstractBackground: The inferior temporal cortex (IT) of the monkey has long been known to play an e...
Neurons in the inferior temporal (IT) cortex respond selectively to complex objects, and maintain th...
The category of visual stimuli has been reliably decoded from patterns of neural activity in extrast...
Understanding the complex brain computations leading to object recognition requires quantitatively c...
Understanding the complex brain computations leading to object recognition requires quantitatively c...
This chapter reviews experimental work in macaque monkeys concerning the processing of visual inform...
Primates can easily identify visual objects over large changes in retinal position--a property commo...
ent regions of IT while monkeys were performing a face discrimination task. The underlying assumptio...
Biological visual systems have the remarkable ability to recognize objects despite confounding facto...
The inferior temporal cortex (IT) of the monkey has long been known to play an essential role in vis...
The inferotemporal (IT) cortex is responsible for object recognition, but it is unclear how the repr...
Recognizing objects in cluttered scenes requires attentional mechanisms to filter out distracting in...
It has been shown that it is possible to read, from the firing rates of just a small population of n...
Most electrophysiology studies analyze the activity of each neuron separately. While such studies ha...
The inferior temporal (IT) cortex in monkeys plays a central role in visual object recognition and l...
AbstractBackground: The inferior temporal cortex (IT) of the monkey has long been known to play an e...
Neurons in the inferior temporal (IT) cortex respond selectively to complex objects, and maintain th...
The category of visual stimuli has been reliably decoded from patterns of neural activity in extrast...