Humans and rhesus monkeys can identify shapes that have been rotated in the picture plane. Recognition of rotated shapes can be as efficient as recognition of upright shapes. Here we investigate whether subjects showing view-invariant performance use the same object features to identify upright and rotated versions of a shape. We find marked differences between humans and monkeys. While humans tend to use the same features independent of shape orientation, monkeys use unique features for each orientation. Humans are able to generalize to a greater degree across orientation changes than rhesus monkey observers, who tend to relearn separate problems at each orientation rather than flexibly apply previously learned knowledge to novel problems
Abstract. Primates are very good at recognizing objects independently of viewing angle or retinal po...
The inferior temporal cortex (IT) of monkeys is thought to play an essential role in visual object r...
We compared neural substrates of two-dimensional shape processing in human and nonhuman primates usi...
Humans and rhesus monkeys can identify shapes that have been rotated in the picture plane. Recogniti...
During visually guided behavior relevant information must be extracted from the objects in the envir...
Although the rhesus monkey is used widely as an animal model of human visual processing, it is not k...
Background: How do we recognize visually perceived three-dimensional objects, particularly when they...
How does the brain recognize three-dimensional objects? An initial step towards the understanding of...
Background: How do we recognize visually perceived three-dimensional objects, particularly when they...
AbstractThree monkeys were trained successively with discrimination, concurrent matching to sample, ...
A key question concerning the perception of 3D objects is the spatial reference frame used by the br...
Three monkeys were trained successively with discrimination, concurrent matching to sample, and same...
International audienceAmong primates, humans are special in their ability to create and manipulate h...
The orientation invariance of visual pattern recognition in pigeons and humans was studied using a c...
The orientation invariance of visual pattern recognition in pigeons and humans was studied using a c...
Abstract. Primates are very good at recognizing objects independently of viewing angle or retinal po...
The inferior temporal cortex (IT) of monkeys is thought to play an essential role in visual object r...
We compared neural substrates of two-dimensional shape processing in human and nonhuman primates usi...
Humans and rhesus monkeys can identify shapes that have been rotated in the picture plane. Recogniti...
During visually guided behavior relevant information must be extracted from the objects in the envir...
Although the rhesus monkey is used widely as an animal model of human visual processing, it is not k...
Background: How do we recognize visually perceived three-dimensional objects, particularly when they...
How does the brain recognize three-dimensional objects? An initial step towards the understanding of...
Background: How do we recognize visually perceived three-dimensional objects, particularly when they...
AbstractThree monkeys were trained successively with discrimination, concurrent matching to sample, ...
A key question concerning the perception of 3D objects is the spatial reference frame used by the br...
Three monkeys were trained successively with discrimination, concurrent matching to sample, and same...
International audienceAmong primates, humans are special in their ability to create and manipulate h...
The orientation invariance of visual pattern recognition in pigeons and humans was studied using a c...
The orientation invariance of visual pattern recognition in pigeons and humans was studied using a c...
Abstract. Primates are very good at recognizing objects independently of viewing angle or retinal po...
The inferior temporal cortex (IT) of monkeys is thought to play an essential role in visual object r...
We compared neural substrates of two-dimensional shape processing in human and nonhuman primates usi...