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W I Welker

Showing results (1-10 of 14) with videos related to

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Archives Italiennes De Biologie|July 1, 1990
The significance of foliation and fissuration of cerebellar cortex. The cerebellar folium as a fundamental unit of sensorimotor integrationW I Welker
Brain, Behavior and Evolution|January 1, 1973
Principles of organization of the ventrobasal complex in mammalsW I Welker
Brain, Behavior and Evolution|January 1, 1976
Somatic sensory cortex of hyrax (Procavia)W I Welker, M Carlson
Brain, Behavior and Evolution|January 1, 1976
Some morphological, physiological and behavioral specializations in North American beavers (Castor canadensis)M Carlson, W I Welker
Somatosensory Research|January 1, 1983
Quantitative studies of stimulus coding in first-order vibrissa afferents of rats. 1. Receptive field properties and threshold distributionsJ M Gibson, W I Welker
Somatosensory Research|January 1, 1983
Quantitative studies of stimulus coding in first-order vibrissa afferents of rats. 2. Adaptation and coding of stimulus parametersJ M Gibson, W I Welker
Journal of Neuroscience Methods|May 1, 1982
Stimulus-response profile analysis: a comprehensive, quantitative approach to the study of sensory coding and information processingJ M Gibson, W I Welker
Brain Research|October 27, 1972
An unusual sensory area in the cerebral neocortex of the bottlenose dolphin, Tursiops truncatusR A Lende, W I Welker
Brain, Behavior and Evolution|January 1, 1976
Comparisons between brains of a large and a small hystricomorph rodent: capybara, Hydrochoerus and guinea pig, Cavia; neocortical projection regions and measurements of brain subdivisionsG B Campos, W I Welker
Brain, Behavior and Evolution|January 1, 1976
Microelectrode mapping of modality-specific somatic sensory cerebral neocortex in slow lorisA Krishnamurti, F Sanides, W I Welker
Pageof 2

Showing results (1-10 of 14) with videos related to

Sort By:
Pageof 2
Archives Italiennes De Biologie|July 1, 1990
The significance of foliation and fissuration of cerebellar cortex. The cerebellar folium as a fundamental unit of sensorimotor integrationW I Welker
Brain, Behavior and Evolution|January 1, 1973
Principles of organization of the ventrobasal complex in mammalsW I Welker
Brain, Behavior and Evolution|January 1, 1976
Somatic sensory cortex of hyrax (Procavia)W I Welker, M Carlson
Brain, Behavior and Evolution|January 1, 1976
Some morphological, physiological and behavioral specializations in North American beavers (Castor canadensis)M Carlson, W I Welker
Somatosensory Research|January 1, 1983
Quantitative studies of stimulus coding in first-order vibrissa afferents of rats. 1. Receptive field properties and threshold distributionsJ M Gibson, W I Welker
Somatosensory Research|January 1, 1983
Quantitative studies of stimulus coding in first-order vibrissa afferents of rats. 2. Adaptation and coding of stimulus parametersJ M Gibson, W I Welker
Journal of Neuroscience Methods|May 1, 1982
Stimulus-response profile analysis: a comprehensive, quantitative approach to the study of sensory coding and information processingJ M Gibson, W I Welker
Brain Research|October 27, 1972
An unusual sensory area in the cerebral neocortex of the bottlenose dolphin, Tursiops truncatusR A Lende, W I Welker
Brain, Behavior and Evolution|January 1, 1976
Comparisons between brains of a large and a small hystricomorph rodent: capybara, Hydrochoerus and guinea pig, Cavia; neocortical projection regions and measurements of brain subdivisionsG B Campos, W I Welker
Brain, Behavior and Evolution|January 1, 1976
Microelectrode mapping of modality-specific somatic sensory cerebral neocortex in slow lorisA Krishnamurti, F Sanides, W I Welker
Pageof 2