Author:
Phillips William A.,Singer Wolf
Abstract
It is worthwhile to search for forms of coding, processing,
and learning common to various cortical regions and cognitive
functions. Local cortical processors may coordinate their activity by
maximizing the transmission of information coherently related to the
context in which it occurs, thus forming synchronized population
codes. This coordination involves contextual field (CF) connections
that link processors within and between cortical regions. The effects
of CF connections are distinguished from those mediating receptive
field (RF) input; it is shown how CFs can guide both learning and
processing without becoming confused with the transmission of RF
information. Simulations explore the capabilities of networks built
from local processors with both RF and CF connections. Physiological
evidence for synchronization, CFs, and plasticity of the RF and CF
connections is described. Coordination via CFs is related to
perceptual grouping, the effects of context on contrast sensitivity,
amblyopia, implicit influences of color in achromotopsia, object and
word perception, and the discovery of distal environmental variables
and their interactions through self-organization. Cortical computation
could thus involve the flexible evaluation of relations between input
signals by locally specialized but adaptive processors whose activity
is dynamically associated and coordinated within and between regions
through specialized contextual connections.
Publisher
Cambridge University Press (CUP)
Subject
Behavioral Neuroscience,Physiology,Neuropsychology and Physiological Psychology
Cited by
289 articles.
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