Spelling suggestions: "subject:"hemispheres"" "subject:"hemisphere's""
1 |
The effects of perceptual interference and noninterference on facial recognition based on outer and inner facial featuresJuzwin, Kathryn Rossetto January 1986 (has links)
This study investigated the effects of interference from a center stimulus on the recognition of faces presented in each visual half-field using the tachistoscoptic presentation. Based on prior studies, it was hypothesized that faces would be recognized nnre accurately based on outline features when presented to the Left visual field - Right hemisphere and on inner features for the Right visual field - Left hemisphere. It was also hypothesized that digits presented at center fixation would interfere most with the recognition of the inner details of faces presented to the right hemisphere, since recognizing both faces and digits requires high-frequency spectral analysis (Sergent, 1982b).Each stimulus was cinposed of either a number or a blank at center fixation and a face placed either to the left or right of fixation. The results indicated no performance differences due to the visual field of presentation. Recognition was most accurate when no center stimulus was present, and recognition of outer details was more accurate than recognition of inner details. Subjects tended to use top-to--bottan processing for faces in both visual fields.
|
2 |
Hemispheric asymmetrics between unilateral and bilateral presentations of a letter classification taskTheodorou, Erine E. January 1981 (has links)
This study investigated the hypothesis that bilateral stimulation of the cortex would facil_tate the performance of a letter matching task as compared to unilateral stimulation.Furthermore, the study expected to observe a RVH superiority for a NI letter match and a LVH superiority for making a PI letter match as observed in an earlier study (Cohen, 1972). These results were not found. The only conclusive result found was that the NI letter match was a more difficult match to make than any of .he other letter matches. Possible sources for this factcr were discussed.
|
3 |
Behavioral effects of dorsal and ventral hippocampal lesions in the rat.Nadel, Lynn January 1967 (has links)
No description available.
|
4 |
Hemispheric laterality : an E.E.G. study /Kowalik, Ruth Helen Jane. January 1976 (has links) (PDF)
Thesis (B.A.(Hons.))-- University of Adelaide, Dept. of Psychology, 1977.
|
5 |
Hemispheric interaction : when and why is yours better than mine? /Cherbuin, Nicolas. January 2005 (has links)
Thesis (Ph.D.)--Australian National University, 2005.
|
6 |
Hemispheric interaction in simple and complex tasks : a study of interlimb coordination /Mutch, Kevin Jacob. January 2009 (has links)
Thesis (Honors)--College of William and Mary, 2009. / Includes bibliographical references (leaves 20-26). Also available via the World Wide Web.
|
7 |
Changes with aging in right hemisphere activation as reflected in bimanual and dihaptic task performance.Ferron, Danielle, Carleton University. Dissertation. Psychology. January 1992 (has links)
Thesis (Ph. D.)--Carleton University, 1992. / Also available in electronic format on the Internet.
|
8 |
Hemisphere differences and interhemispheric relations, with special reference to the functions of the corpus callosumReynolds, Don McQuoid January 1975 (has links)
This thesis contains reports of behavioural investigations carried out on an acallosal girl and her brain-damaged sister. These patients were compared on tasks involving tactile, auditory, and visual perception with a group of control Subjects matched for sex, I.Q. and age, as well as with normal Subjects of the same sex and age. The general aim of the experiments was (a) to investigate and compare the functions of the cerebral hemispheres and (b) to study interhemispheric relationships. Using normal Subjects as well as the acallosal patient special attention was directed towards furthering our understanding of the functions of the corpus callosum. Our results were compared with previous findings in an effort to resolve conflicting findings in the agenesis literature and to explain differences between the previously reported acallosal and surgical-bisected patients' behaviour. The acallosal was found to perform less efficiently than control Subjects on some bimanual and unimanual motor coordination tasks. This finding is consistent with earlier reports on agenesis Subjects. Some evidence was found to indicate that acallosals do not efficiently transfer learning of a tactile formboard task from one hand to the other The acallosal patient did not show an anomia of the left hand as do surgical-bisected patients. There is, however, an inefficiency in tactile cross-localization of light touch stimuli. Dichotic listening experiments used verbal stimuli to test the hypothesis that the acallosal girl would demonstrate equipotentiality of language processes in both hemispheres. Tonal patterns were similar presented dichotically. The acallosal Subject exhibited a greater right-ear advantage than the controls on the recall of digits. Studies of reaction time to a simple visual stimulus replicated findings of greater pathway differences for acallosals than for normals. Another visual perception study supported the finding that acallosals do not show interocular transfer of movement aftereffects. Tachistoscopic recognition tasks of alphabetical and facial stimuli were used on the acallosal, her sister, and normal controls. A developmental study of normals was also carried out. Thirteen year old normals and adults were found to have a left-hemisphere superiority for letters and right-hemisphere for faces. The seven and eight year olds did not show significant lateralization of either faces or letters. The acallosal showed a left visual field superiority for letters, a finding opposite to that for normals. These findings suggest that processes involved in recognition of letters and faces develop with increasing age in childhood. The acallosal Subject appears to have bilateral representation of language processes across sensory modalities in opposite hemispheres, presumably the result of compensatory development arising from lack of a corpus callosum.
|
9 |
Behavioral effects of dorsal and ventral hippocampal lesions in the rat.Nadel, Lynn January 1967 (has links)
No description available.
|
10 |
Hemispheric brain electrical activity in normal, educable mentally retarded, learning disabled, and gifted adolescents during verbal, visuo-spatial, and psychomotor tasks /Cowan, James D. January 1982 (has links)
No description available.
|
Page generated in 0.0605 seconds