| scholarly article | Q13442814 |
| P50 | author | Cristina Becchio | Q21257931 |
| Valeria Manera | Q37373303 | ||
| P2093 | author name string | Ben Schouten | |
| Karl Verfaillie | |||
| Bruno G Bara | |||
| P2860 | cites work | Seeing biological motion. | Q50858806 |
| The perception of emotion from body movement in point-light displays of interpersonal dialogue. | Q50952201 | ||
| Perception of emotion from dynamic point-light displays represented in dance. | Q50996874 | ||
| Implied body action directs spatial attention | Q51902903 | ||
| You must see the point: automatic processing of cues to the direction of social attention. | Q52168366 | ||
| Creating stimuli for the study of biological-motion perception | Q78414662 | ||
| Brain mechanisms for inferring deceit in the actions of others | Q80209093 | ||
| Joint action: bodies and minds moving together | Q82235267 | ||
| Perceiving affect from arm movement | Q30462956 | ||
| Social Connection Through Joint Action and Interpersonal Coordination | Q30473530 | ||
| Perception of biological motion without local image motion | Q30476190 | ||
| Perception of biological motion: a stimulus set of human point-light actions | Q33210724 | ||
| Neural mechanisms of social attention | Q33410039 | ||
| Movement and mind: a functional imaging study of perception and interpretation of complex intentional movement patterns | Q33913987 | ||
| The neural basis of mentalizing | Q36479144 | ||
| Attention, Joint Attention, and Social Cognition | Q37146622 | ||
| Action categories and the perception of biological motion | Q38470973 | ||
| Emotion perception from dynamic and static body expressions in point-light and full-light displays | Q39692958 | ||
| Understanding intentions in social interaction: the role of the anterior paracingulate cortex. | Q40447275 | ||
| Meaningful interactions can enhance visual discrimination of human agents. | Q46014578 | ||
| Inferring intentions from biological motion: a stimulus set of point-light communicative interactions | Q46425590 | ||
| The detection of contingency and animacy from simple animations in the human brain | Q48256827 | ||
| Detecting deception in a bluffing body: the role of expertise | Q48303609 | ||
| Social attention orienting integrates visual information from head and body orientation | Q48502916 | ||
| Prediction in joint action: what, when, and where | Q48683083 | ||
| Thinking about intentions | Q48848041 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | e14594 | |
| P577 | publication date | 2011-01-26 | |
| P1433 | published in | PLOS One | Q564954 |
| P1476 | title | Communicative interactions improve visual detection of biological motion | |
| P478 | volume | 6 |
| Q89393050 | Adaptation aftereffects reveal representations for encoding of contingent social actions |
| Q30411091 | Audiovisual integration of emotional signals from others' social interactions |
| Q42121500 | Biological motion perception is affected by age and cognitive style in children aged 8-15. |
| Q49027562 | Biological motion processing as a hallmark of social cognition |
| Q47599066 | Brain correlates of recognition of communicative interactions from biological motion in schizophrenia |
| Q46653147 | Categorizing coordination from the perception of joint actions |
| Q30828030 | Communicative interactions in point-light displays: Choosing among multiple response alternatives |
| Q95839494 | Developmental changes in visual responses to social interactions |
| Q41482087 | Evolution of social predictive brains? |
| Q90639063 | Flexible Orientation Tuning of Visual Representations of Human Body Postures: Evidence From Long-Term Priming |
| Q47740027 | From personal fear to mass panic: The neurological basis of crowd perception |
| Q39621491 | Grasping intentions: from thought experiments to empirical evidence |
| Q30658339 | Hesitant avoidance while walking: an error of social behavior generated by mutual interaction. |
| Q27330119 | Human infants detect other people's interactions based on complex patterns of kinematic information |
| Q35064698 | Impaired recognition of communicative interactions from biological motion in schizophrenia |
| Q60937284 | Increased functional coupling of the left amygdala and medial prefrontal cortex during the perception of communicative point-light stimuli |
| Q27317116 | Integrating biological motion: the role of grouping in the perception of point-light actions |
| Q47773436 | Intentions in the brain: the unveiling of Mister Hyde |
| Q36831945 | Interpersonal predictive coding, not action perception, is impaired in autism |
| Q30427782 | Music can elicit a visual motion aftereffect |
| Q39130922 | Observing and participating in social interactions: Action perception and action control across the autistic spectrum. |
| Q44232171 | Perceiving nonverbal behavior: neural correlates of processing movement fluency and contingency in dyadic interactions. |
| Q47638360 | Perceiving social interactions in the posterior superior temporal sulcus |
| Q34744446 | Perceiving the direction of articulatory motion in point-light actions |
| Q34535730 | Perception of social interactions for spatially scrambled biological motion |
| Q47096690 | Potential for social involvement modulates activity within the mirror and the mentalizing systems |
| Q37505779 | Putting actions in context: visual action adaptation aftereffects are modulated by social contexts |
| Q36100309 | Social Interactions Receive Priority to Conscious Perception. |
| Q90697541 | Social Perception and Interaction Database-A Novel Tool to Study Social Cognitive Processes With Point-Light Displays |
| Q39339738 | Sociomotor action control. |
| Q36364265 | Statistical learning in social action contexts. |
| Q99616847 | Synchronicities that shape the perception of joint action |
| Q27305983 | The Multilingual CID-5: A New Tool to Study the Perception of Communicative Interactions in Different Languages |
| Q38015353 | The role of prediction in social neuroscience |
| Q35720017 | The role of social cues in the deployment of spatial attention: head-body relationships automatically activate directional spatial codes in a Simon task |
| Q47578978 | The second agent effect: Interpersonal predictive coding in people with schizophrenia. |
| Q28476366 | The second-agent effect: communicative gestures increase the likelihood of perceiving a second agent |
| Q38135036 | Theory of mind: a neural prediction problem |
| Q28485229 | Time will show: real time predictions during interpersonal action perception |
| Q89126916 | Timing of grip and goal activation during action perception: a priming study |
| Q42693910 | View dependencies in the visual recognition of social interactions |
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