An Adaptive Neural Network: The Cerebral Cortex |
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Page 56
... correlations . But we shall consider that this effect is only produced after the two steps that we have described : 1. The neuron is in the " integrative mode " ( temporal level T2 ) , and the strong short term correlations induced by ...
... correlations . But we shall consider that this effect is only produced after the two steps that we have described : 1. The neuron is in the " integrative mode " ( temporal level T2 ) , and the strong short term correlations induced by ...
Page 203
... correlations call movements which can produce these correlations . Positioning the hand relative to objects is capital for their recognition and use . This positioning is very rapid when it can be visually guided . The guiding function ...
... correlations call movements which can produce these correlations . Positioning the hand relative to objects is capital for their recognition and use . This positioning is very rapid when it can be visually guided . The guiding function ...
Page 204
... correlations between visual and somatosensory stimuli ( matching test ) : - some parietal modules test correlations between the position of the stimulus in the visual field and the direction of movement toward the center of the field ...
... correlations between visual and somatosensory stimuli ( matching test ) : - some parietal modules test correlations between the position of the stimulus in the visual field and the direction of movement toward the center of the field ...
Contents
Introduction | 1 |
basic function of neurons | 23 |
From neuronal to tissular function | 40 |
Copyright | |
27 other sections not shown
Common terms and phrases
action potential activity adaptations afferent associative areas auditory automaton axes axons behavioral call trees cellular cerebellum cerebral cortex chapter circuits columnar automata combinations construction correspond cortical actions cortical areas cortical column cortical images cortical inputs cortical modules cortical network cortical regions cortical surface cortical system cortical zone coupling dendrites depends differentiation effect example excitatory external Figure frontal areas frontal cortex frontal regions fundamental programs global hippocampus inhibition inhibitory internal interneurons lateral inhibition learning level E2 linked lower layers maps membrane memorization modular actions module molecular motor areas neural structures organization orientation output parallel parameters partial goals pathways pattern phonemes position produce properties Purkinje cells pyramidal cells pyramidal neurons receptor recognition algorithms relations represent reticular reticular formation retinal sensorimotor sensory sequence somatosensory spatial specific symbolic symmetrical synapses temporal levels thalamic inputs tissue transmission coefficients transmitter triggered uncoupling upper and lower upper layers upper pyramidal cells visual words
References to this book
Artificial Life and Virtual Reality Nadia Magnenat-Thalmann,Daniel Thalmann No preview available - 1994 |