Visual Feature Binding in Early Infancy

How does the developing brain of the human infant solve the feature-binding problem when visual stimuli consisting of multiple colored objects are presented? A habituation–dishabituation procedure revealed that 1-month-old infants have the ability to discriminate changes in the conjunction of a familiar shape and color in two objects. However, this good earlier performance was followed by poorer performance at 2 months of age. The performance improved again at 3 months of age. Detailed analysis of the oculomotor behaviors revealed that the age of 2 months was a period of drastic transition when the tendency to stay with the fixated objects disappeared and repetitive saccades between the two objects emerged. Our findings suggest that the ability to perceive conjunctions of features is available to infants very early, that the perceptual/neural basis at 1 and at 3 months of age may be fundamentally different, and that feature integration by vigorous eye movements or selective attention may be the key functional difference between the age groups.

[1]  D. Lewkowicz,et al.  A dynamic systems approach to the development of cognition and action. , 2007, Journal of cognitive neuroscience.

[2]  E. Bushnell,et al.  Recognition of color-form compounds by 4-month-old infants , 1985 .

[3]  Janette Atkinson,et al.  Habituation changes in early infancy: longitudinal measures from birth to 6 months , 1996 .

[4]  A. Slater,et al.  Visual Processing of Stimulus Compounds in Newborn Infants , 1991, Perception.

[5]  G. Stechler,et al.  SOME OBSERVATIONS ON ATTENTION AND AROUSAL IN THE HUMAN INFANT , 1966 .

[6]  G. Bronson The postnatal growth of visual capacity. , 1974, Child development.

[7]  A. Treisman,et al.  A feature-integration theory of attention , 1980, Cognitive Psychology.

[8]  Ch. von der Malsburg,et al.  A neural cocktail-party processor , 1986, Biological Cybernetics.

[9]  Y Yonekura,et al.  A rapid brain metabolic change in infants detected by fMRI , 1997, Neuroreport.

[10]  Leslie B. Cohen,et al.  A Two Process Model of Infant Visual Attention. , 1972 .

[11]  W. Singer Synchronization of cortical activity and its putative role in information processing and learning. , 1993, Annual review of physiology.

[12]  A. Treisman,et al.  Parietal contributions to visual feature binding: evidence from a patient with bilateral lesions , 1995, Science.

[13]  Mark H. Johnson,et al.  CONSPEC and CONLERN: a two-process theory of infant face recognition. , 1991, Psychological review.

[14]  B. Bertenthal,et al.  The partial-lag design: A method for controlling spontaneous regression in the infant-control habituation paradigm* , 1983 .

[15]  R K Clifton,et al.  The development of a human auditory localization response: a U-shaped function. , 1989, Canadian journal of psychology.

[16]  F. D. Horowitz,et al.  An Infant Control Procedure for Studying Infant Visual Fixations. , 1972 .

[17]  J. Wolfe,et al.  The Psychophysical Evidence for a Binding Problem in Human Vision , 1999, Neuron.

[18]  Mark H. Johnson Cortical Maturation and the Development of Visual Attention in Early Infancy , 1990, Journal of Cognitive Neuroscience.

[19]  On the Neural Mechanisms Underlying Developmental and Individual Differences in Visual Fixation in Infancy: Two Hypotheses , 1995 .

[20]  J. Atkinson Early visual development: Differential functioning of parvocellular and magnocellular pathways , 1992, Eye.

[21]  J. Werker,et al.  Infants listen for more phonetic detail in speech perception than in word-learning tasks , 1997, Nature.

[22]  Hiroshi Shimizu,et al.  Pattern Recognition Based on Holonic Information Dynamics: Towards Synergetic Computers , 1985 .

[23]  Mark H. Johnson,et al.  Newborns' preferential tracking of face-like stimuli and its subsequent decline , 1991, Cognition.

[24]  R. L. Fantz Pattern Vision in Newborn Infants , 1963, Science.

[25]  T. Bower Repetitive processes in child development. , 1976, Scientific American.

[26]  P. Mundy Compound-stimulus information processing by 3-month-old infants. , 1985, The Journal of genetic psychology.

[27]  The effect of movement on infants' memory for visual compounds , 1988 .

[28]  D. Maurer,et al.  The influence of stimulus size on newborns' discrimination of chromatic from achromatic stimuli , 1990, Vision Research.