Abstract visual-form representations in the left cerebral hemisphere.

Visual-form systems in the cerebral hemispheres were examined in 3 experiments. After learning new types of visual forms, participants rapidly classified previously unseen prototypes of the newly learned types more efficiently when the forms were presented directly to the left hemisphere (in the right visual field) than when the forms were presented directly to the right hemisphere (in the left visual field). Neither previously seen nor previously unseen distortions of the prototypes were classified more efficiently when presented directly to the left hemisphere than when presented directly to the right hemisphere. Results indicate that an abstract visual-form system operates effectively in the left hemisphere and stores information that remains relatively invariant across the specific instances of a type of form to distinguish different types. Furthermore, this system functions relatively independently of another system that operates effectively in the right hemisphere and that stores details to distinguish specific instances of a type of form.

[1]  M. Mishkin,et al.  Word recognition as a function of retinal locus. , 1952, Journal of experimental psychology.

[2]  M. Bryden Tachistoscopic recognition, handedness, and cerebral dominance☆ , 1965 .

[3]  M. Posner,et al.  On the genesis of abstract ideas. , 1968, Journal of experimental psychology.

[4]  J. Bransford,et al.  Abstraction of visual patterns. , 1971, Journal of experimental psychology.

[5]  J L Bradshaw,et al.  Interhemispheric effects on reaction time to verbal and nonverbal visual stimuli. , 1971, Journal of experimental psychology.

[6]  R. C. Oldfield The assessment and analysis of handedness: the Edinburgh inventory. , 1971, Neuropsychologia.

[7]  Stephen K. Reed,et al.  Pattern recognition and categorization , 1972 .

[8]  Lillian Leiber Lexical decisions in the right and left cerebral hemispheres , 1976, Brain and Language.

[9]  F. Allard,et al.  Visual hemifield differences depend on typeface , 1976, Brain and Language.

[10]  Paul A. Kolers,et al.  Processing of visible language , 1979 .

[11]  John Morton,et al.  Facilitation in Word Recognition: Experiments Causing Change in the Logogen Model , 1979 .

[12]  G. McConkie,et al.  Integrating information across eye movements , 1980, Cognitive Psychology.

[13]  T Shallice,et al.  Word-form dyslexia. , 1980, Brain : a journal of neurology.

[14]  B. Fischhoff,et al.  Journal of Experimental Psychology: Human Learning and Memory , 1980 .

[15]  D. Homa,et al.  Limitations of exemplar-based generalization and the abstraction of categorical information. , 1981 .

[16]  K R Paap,et al.  Word shape's in poor shape for the race to the lexicon. , 1984, Journal of experimental psychology. Human perception and performance.

[17]  M. Mozer,et al.  Perceptual interactions in two-word displays: familiarity and similarity effects. , 1986, Journal of experimental psychology. Human perception and performance.

[18]  L. Squire Memory and Brain , 1987 .

[19]  M. Coltheart Attention and Performance XII: The Psychology of Reading , 1987 .

[20]  S. Kosslyn Seeing and imagining in the cerebral hemispheres: a computational approach. , 1987, Psychological review.

[21]  David G. Lowe,et al.  Three-Dimensional Object Recognition from Single Two-Dimensional Images , 1987, Artif. Intell..

[22]  I. Biederman Recognition-by-components: a theory of human image understanding. , 1987, Psychological review.

[23]  D. Zaidel Hemispheric asymmetry in long-term semantic relationships , 1987 .

[24]  H. Brownell Appreciation of Metaphoric and Connotative Word Meaning by Brain-Damaged Patients , 1988 .

[25]  Christine Chiarello,et al.  Right Hemisphere Contributions to Lexical Semantics , 1988 .

[26]  C. Burgess,et al.  Cerebral hemispheric mechanisms in the retrieval of ambiguous word meanings , 1988, Brain and Language.

[27]  M. Posner,et al.  Localization of cognitive operations in the human brain. , 1988, Science.

[28]  P. T. Fox,et al.  Positron emission tomographic studies of the cortical anatomy of single-word processing , 1988, Nature.

[29]  M. Posner,et al.  Positron Emission Tomographic Studies of the Processing of Singe Words , 1989, Journal of Cognitive Neuroscience.

[30]  S. Kosslyn,et al.  Components of high-level vision: A cognitive neuroscience analysis and accounts of neurological syndromes , 1990, Cognition.

[31]  D. Schacter Perceptual Representation Systems and Implicit Memory , 1990, Annals of the New York Academy of Sciences.

[32]  T. Carr,et al.  Perceptual abstraction and interactivity in repeated oral reading: Where do things stand? , 1990 .

[33]  E Tulving,et al.  Priming and human memory systems. , 1990, Science.

[34]  C. Chiarello,et al.  Typicality effects in artificial categories: Is there a hemisphere difference? , 1990, Brain and Language.

[35]  S. Corkin,et al.  Intact priming of patterns despite impaired memory , 1990, Neuropsychologia.

[36]  S. Petersen,et al.  Activation of extrastriate and frontal cortical areas by visual words and word-like stimuli. , 1990, Science.

[37]  M. Farah Visual Agnosia: Disorders of Object Recognition and What They Tell Us about Normal Vision , 1990 .

[38]  David C. Plaut,et al.  Visual Object Representation: Interpreting Neurophysiological Data within a Computational Framework , 1990, Journal of Cognitive Neuroscience.

[39]  Martha J. Farah,et al.  Cognitive Neuropsychology: Patterns of Co-occurrence Among the Associative Agnosias: Implications for Visual Object Representation , 1991 .

[40]  Daniel L. Schacter,et al.  Priming and Multiple Memory Systems: Perceptual Mechanisms of Implicit Memory , 1992, Journal of Cognitive Neuroscience.

[41]  I. Biederman,et al.  Dynamic binding in a neural network for shape recognition. , 1992, Psychological review.

[42]  J. Sergent,et al.  Functional neuroanatomy of face and object processing. A positron emission tomography study. , 1992, Brain : a journal of neurology.

[43]  L. Squire Declarative and Nondeclarative Memory: Multiple Brain Systems Supporting Learning and Memory , 1992, Journal of Cognitive Neuroscience.

[44]  D. Schacter Understanding implicit memory. A cognitive neuroscience approach. , 1992, The American psychologist.

[45]  B. Abbott,et al.  The Psychology of Word Meanings. , 1992 .

[46]  S. Kosslyn,et al.  Form-specific visual priming in the right cerebral hemisphere. , 1992, Journal of experimental psychology. Learning, memory, and cognition.

[47]  T. Carr,et al.  Limits on perceptual abstraction in reading: Asymmetric transfer between surface forms differing in typicality. , 1993 .

[48]  Michael I. Posner,et al.  Converging Methods for Investigating Lexical Access , 1993 .

[49]  S E Petersen,et al.  The processing of single words studied with positron emission tomography. , 1993, Annual review of neuroscience.

[50]  J. Grafman,et al.  Summation Priming and Coarse Semantic Coding in the Right Hemisphere , 1994, Journal of Cognitive Neuroscience.

[51]  Stephen M. Kosslyn,et al.  Form-Specific Explicit and Implicit Memory in the Right Cerebral Hemisphere , 1994 .

[52]  Daniel L. Schacter,et al.  Form-specific visual priming for new associations in the right cerebral hemisphere , 1996, Memory & cognition.

[53]  David G. Lowe,et al.  Perceptual Organization and Visual Recognition , 2012 .