Frameworks of analysis for the neural representation of animate objects and actions.

A variety of cell types exist in the temporal cortex providing high-level visual descriptions of bodies and their movements. We have investigated the sensitivity of such cells to different viewing conditions to determine the frame(s) of reference utilized in processing. The responses of the majority of cells in the upper bank of the superior temporal sulcus (areas TPO and PGa) found to be sensitive to static and dynamic information about the body were selective for one perspective view (e.g. right profile, reaching right or walking left). These cells can be considered to provide viewer-centred descriptions because they depend on the observer's vantage point. Viewer-centred descriptions could be used in guiding behaviour. They could also be used as an intermediate step for establishing view-independent responses of other cell types which responded to many or all perspective views selectively of the same object (e.g. head) or movement. These cells have the properties of object-centred descriptions, where the object viewed provides the frame of reference for describing the disposition of object parts and movements (e.g. head on top of shoulders, reaching across the body, walking forward 'following the nose'). For some cells in the lower bank of the superior temporal sulcus (area TEa) the responses to body movements were related to the object or goal of the movements (e.g. reaching for or walking towards a specific place). This goal-centred sensitivity to interaction allowed the cells to be selectively activated in situations where human subjects would attribute causal and intentional relationships.

[1]  R. C. Oldfield THE PERCEPTION OF CAUSALITY , 1963 .

[2]  J. Konorski Integrative activity of the brain , 1967 .

[3]  José M. R. Delgado,et al.  Integrative Activity of the Brain , 1968, The Yale Journal of Biology and Medicine.

[4]  D. Hubel,et al.  Receptive fields and functional architecture of monkey striate cortex , 1968, The Journal of physiology.

[5]  D. Rose Proceedings: The hypercomplex cell classification in the cat's striate cortex. , 1974, The Journal of physiology.

[6]  D. Pandya,et al.  Afferent cortical connections and architectonics of the superior temporal sulcus and surrounding cortex in the rhesus monkey , 1978, Brain Research.

[7]  W. Uttal The psychobiology of mind , 1978 .

[8]  D. Marr,et al.  Representation and recognition of the spatial organization of three-dimensional shapes , 1978, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[9]  P. Slater The association for the study of animal behaviour , 1979, Animal Behaviour.

[10]  R. Desimone,et al.  Visual properties of neurons in a polysensory area in superior temporal sulcus of the macaque. , 1981, Journal of neurophysiology.

[11]  A. Leslie The Perception of Causality in Infants , 1982, Perception.

[12]  A. J. Mistlin,et al.  Neurones responsive to faces in the temporal cortex: studies of functional organization, sensitivity to identity and relation to perception. , 1984, Human neurobiology.

[13]  R. Desimone,et al.  Stimulus-selective properties of inferior temporal neurons in the macaque , 1984, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[14]  E. Rolls Neurons in the cortex of the temporal lobe and in the amygdala of the monkey with responses selective for faces. , 1984, Human neurobiology.

[15]  R. M. Siegel,et al.  Encoding of spatial location by posterior parietal neurons. , 1985, Science.

[16]  E. Rolls,et al.  Selectivity between faces in the responses of a population of neurons in the cortex in the superior temporal sulcus of the monkey , 1985, Brain Research.

[17]  A. J. Mistlin,et al.  Visual analysis of body movements by neurones in the temporal cortex of the macaque monkey: A preliminary report , 1985, Behavioural Brain Research.

[18]  H. Barlow The Twelfth Bartlett Memorial Lecture: The Role of Single Neurons in the Psychology of Perception , 1985, The Quarterly journal of experimental psychology. A, Human experimental psychology.

[19]  J. Feldman Four frames suffice: A provisional model of vision and space , 1985, Behavioral and Brain Sciences.

[20]  A. J. Mistlin,et al.  Visual cells in the temporal cortex sensitive to face view and gaze direction , 1985, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[21]  D. Pandya,et al.  Architecture and Connections of Cortical Association Areas , 1985 .

[22]  A. J. Mistlin,et al.  Specialized face processing and hemispheric asymmetry in man and monkey: Evidence from single unit and reaction time studies , 1988, Behavioural Brain Research.

[23]  J. T. Massey,et al.  Mental rotation of the neuronal population vector. , 1989, Science.

[24]  A. Whiten Transmission mechanisms in primate cultural evolution , 1989 .

[25]  W. Singer,et al.  Oscillatory responses in cat visual cortex exhibit inter-columnar synchronization which reflects global stimulus properties , 1989, Nature.

[26]  A. J. Mistlin,et al.  Perception of facial characteristics by monkeys. , 1990 .