The brain is bombarded with a continuous stream of sensory information, but biological limitations on the data-transmission rate require this information to be encoded very efficiently [1]. Li and Atick [2] proposed that the two eyes’ signals are coded efficiently in the brain using mutually decorrelated binocular summation and differencing channels; when a channel is strongly stimulated by the visual input, such that sensory noise is negligible, the channel should undergo temporary desensitization (known as adaptation). To date, the evidence for this theory has been limited [3, 4], and the binocular differencing channel is missing from many models of binocular integration [5, 6, 7, 8, 9, 10]. Li and Atick’s theory makes the remarkable pred...
Current theories of binocular vision suggest that the neural processes that resolve interocular conf...
Li and Atick (Network: Computation in Neural Systems 5 (1994) 157–174) presented a theory of efficie...
Recent studies of areas V1 and MT in the visual cortex show that exposure to a stimulus can change t...
The brain is bombarded with a continuous stream of sensory information, but biological limitations o...
Li and Atick (1994) presented a theory of efficient binocular encoding in which the two eyes’ signal...
In Li and Atick's [1, 2] theory of efficient stereo coding, the two eyes' signals are transformed in...
In Li and Atick's [1, 2] theory of efficient stereo coding, the two eyes' signals are transformed in...
SummaryIn Li and Atick's [1, 2] theory of efficient stereo coding, the two eyes' signals are transfo...
Biological visual systems continuously optimize themselves to the prevailing image statistics, which...
We present a novel face adaptation paradigm that follows from Li and Atick’s (1994) theory of effici...
In previous work (May & Zhaoping, 2016; May, Zhaoping, & Hibbard, 2012), we have provided evidence t...
In previous work (May & Zhaoping, 2016; May, Zhaoping, & Hibbard, 2012), we have provided evidence t...
Throughout the brain, information from individual sources converges onto higher order neurons. For e...
Binocular rivalry occurs when an observer looks at two different monocular images. One of the images...
When each eye views a different stimulus, visual perception alternates irregularly between them: bin...
Current theories of binocular vision suggest that the neural processes that resolve interocular conf...
Li and Atick (Network: Computation in Neural Systems 5 (1994) 157–174) presented a theory of efficie...
Recent studies of areas V1 and MT in the visual cortex show that exposure to a stimulus can change t...
The brain is bombarded with a continuous stream of sensory information, but biological limitations o...
Li and Atick (1994) presented a theory of efficient binocular encoding in which the two eyes’ signal...
In Li and Atick's [1, 2] theory of efficient stereo coding, the two eyes' signals are transformed in...
In Li and Atick's [1, 2] theory of efficient stereo coding, the two eyes' signals are transformed in...
SummaryIn Li and Atick's [1, 2] theory of efficient stereo coding, the two eyes' signals are transfo...
Biological visual systems continuously optimize themselves to the prevailing image statistics, which...
We present a novel face adaptation paradigm that follows from Li and Atick’s (1994) theory of effici...
In previous work (May & Zhaoping, 2016; May, Zhaoping, & Hibbard, 2012), we have provided evidence t...
In previous work (May & Zhaoping, 2016; May, Zhaoping, & Hibbard, 2012), we have provided evidence t...
Throughout the brain, information from individual sources converges onto higher order neurons. For e...
Binocular rivalry occurs when an observer looks at two different monocular images. One of the images...
When each eye views a different stimulus, visual perception alternates irregularly between them: bin...
Current theories of binocular vision suggest that the neural processes that resolve interocular conf...
Li and Atick (Network: Computation in Neural Systems 5 (1994) 157–174) presented a theory of efficie...
Recent studies of areas V1 and MT in the visual cortex show that exposure to a stimulus can change t...