Journal Article10.1146/ANNUREV.PSYCH.57.102904.190152
Perception of Human Motion
Randolph Blake,Maggie Shiffrar +1 more
TL;DR: In recent years, remarkable advances have been made in the understanding of the visual, motoric, and affective influences on perception of human action, as well as in the elucidation of the neural concomitants of perception ofhuman action.
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Abstract: Humans, being highly social creatures, rely heavily on the ability to perceive what others are doing and to infer from gestures and expressions what others may be intending to do. These perceptual skills are easily mastered by most, but not all, people, in large part because human action readily communicates intentions and feelings. In recent years, remarkable advances have been made in our understanding of the visual, motoric, and affective influences on perception of human action, as well as in the elucidation of the neural concomitants of perception of human action. This article reviews those advances and, where possible, draws links among those findings.
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Citations
Observation of Point-Light-Walker Locomotion Induces Motor Resonance When Explicitly Represented; An EEG Source Analysis Study.
Alberto Inuggi,Claudio Campus,Roberta Vastano,Ghislain Saunier,Alejo Keuroghlanian,Thierry Pozzo +5 more
TL;DR: The results confirm the role of own motor repertoire in processing human action and suggest that ERP can detect the associated motor resonance only when the human figure is explicitly involved in performing a meaningful action.
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Stepping into the genetics of biological motion processing.
TL;DR: Within the context of a classic twin study design, Wang et al. (5) use behavioral genetic techniques to show that up to 50% of the individual performance variation in processing local BM signals can be accounted for by genetic factors.
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Action verbs are processed differently in metaphorical and literal sentences depending on the semantic match of visual primes.
TL;DR: Findings are interpreted as evidence for shared recruitment of cognitive and neural mechanisms for processing visual and verbal biological motion information in literal and metaphorical sentences.
Explaining Variance in Social Symptoms of Children with Autism Spectrum Disorder.
Diana Alkire,Katherine Rice Warnell,Katherine Rice Warnell,Laura A. Kirby,Laura A. Kirby,Dustin Moraczewski,Elizabeth Redcay +6 more
TL;DR: Parent-reported emotional contagion emerged as the most important predictor, explaining 11-14% of the variance in social symptoms, with higher levels of emotional contagions predicting lower social symptom severity.
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What Does “Biological Motion” Really Mean?
Arieta Chouchourelou,Alissa Golden,Maggie Shiffrar +2 more
- 04 Dec 2012
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References
•Book
The Expression of the Emotions in Man and Animals
Charles Darwin
- 01 Jan 1872
TL;DR: The Expression of the Emotions in Man and Animals Introduction to the First Edition and Discussion Index, by Phillip Prodger and Paul Ekman.
11.8K
Distributed Hierarchical Processing in the Primate Cerebral Cortex
TL;DR: A summary of the layout of cortical areas associated with vision and with other modalities, a computerized database for storing and representing large amounts of information on connectivity patterns, and the application of these data to the analysis of hierarchical organization of the cerebral cortex are reported on.
The Fusiform Face Area: A Module in Human Extrastriate Cortex Specialized for Face Perception
TL;DR: The data allow us to reject alternative accounts of the function of the fusiform face area (area “FF”) that appeal to visual attention, subordinate-level classification, or general processing of any animate or human forms, demonstrating that this region is selectively involved in the perception of faces.
The mirror-neuron system.
TL;DR: A neurophysiological mechanism appears to play a fundamental role in both action understanding and imitation, and those properties specific to the human mirror-neuron system that might explain the human capacity to learn by imitation are stressed.
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The Expression of the Emotions in Man and Animals: SURPRISE—ASTONISHMENT—FEAR—HORROR
Charles Darwin,Francis Darwin +1 more
- 01 Jan 2009
Abstract: Acknowledgments List of Illustrations Figures Plates Preface to the Anniversary Edition by Paul Ekman Preface to the Third Edition by Paul Ekman Preface to the Second Edition by Francis Darwin Introduction to the Third Edition by Paul Ekman The Expression of the Emotions in Man and Animals Introduction to the First Edition 1. General Principles of Expression 2. General Principles of Expression -- continued 3. General Principles of Expression -- continued 4. Means of Expression in Animals 5. Special Expressions of Animals 6. Special Expressions of Man: Suffering and Weeping 7. Low Spirits, Anxiety, Grief, Dejection, Despair 8. Joy, High Spirits, Love, Tender Feelings, Devotion 9. Reflection - Meditation - Ill-temper - Sulkiness - Determination 10. Hatred and Anger 11. Disdain - Contempt - Disgust - Guilt - Pride, Etc. - Helplessness - Patience - Affirmation and Negation 12. Surprise - Astonishment - Fear - Horror 13. Self-attention - Shame - Shyness - Modesty: Blushing 14. Concluding Remarks and Summary Afterword, by Paul Ekman APPENDIX I: Charles Darwin's Obituary, by T. H. Huxley APPENDIX II: Changes to the Text, by Paul Ekman APPENDIX III: Photography and The Expression of the Emotions, by Phillip Prodger APPENDIX IV: A Note on the Orientation of the Plates, by Phillip Prodger and Paul Ekman APPENDIX V: Concordance of Illustrations, by Phillip Prodger APPENDIX VI: List of Head Words from the Index to the First Edition NOTES NOTES TO THE COMMENTARIES INDEX
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