scholarly article | Q13442814 |
P8978 | DBLP publication ID | journals/neuroimage/KrakowskiRSSKF11 |
P356 | DOI | 10.1016/J.NEUROIMAGE.2011.01.058 |
P932 | PMC publication ID | 6589837 |
P698 | PubMed publication ID | 21276862 |
P50 | author | Pejman Sehatpour | Q102049957 |
John J. Foxe | Q38641111 | ||
Simon P Kelly | Q47597218 | ||
Adam C. Snyder | Q56088832 | ||
P2093 | author name string | Lars A Ross | |
Aaron I Krakowski | |||
P2860 | cites work | Brain areas involved in perception of biological motion | Q28142468 |
fMRI Responses to Video and Point-Light Displays of Moving Humans and Manipulable Objects | Q28184046 | ||
A cortical area selective for visual processing of the human body | Q28189305 | ||
Recognition of point-light biological motion: mu rhythms and mirror neuron activity | Q28238128 | ||
Functional neuroanatomy of biological motion perception in humans | Q29030692 | ||
Where is the semantic system? A critical review and meta-analysis of 120 functional neuroimaging studies | Q29615925 | ||
Understanding others' actions and goals by mirror and mentalizing systems: A meta-analysis | Q30010879 | ||
Perceiving affect from arm movement | Q30462956 | ||
Perception of biological motion without local image motion | Q30476190 | ||
A human intracranial study of long-range oscillatory coherence across a frontal-occipital-hippocampal brain network during visual object processing | Q30482027 | ||
Social cognition and the anterior temporal lobes | Q30493044 | ||
Superior temporal sulcus--It's my area: or is it? | Q31154453 | ||
Temporal cortex activation in humans viewing eye and mouth movements. | Q32108829 | ||
Structural encoding and recognition of biological motion: evidence from event-related potentials and source analysis | Q33210671 | ||
Human functional magnetic resonance imaging reveals separation and integration of shape and motion cues in biological motion processing. | Q33459689 | ||
Movement and mind: a functional imaging study of perception and interpretation of complex intentional movement patterns | Q33913987 | ||
Flow of activation from V1 to frontal cortex in humans. A framework for defining "early" visual processing | Q34109954 | ||
Brain Areas Active during Visual Perception of Biological Motion | Q34152299 | ||
Functional imaging of 'theory of mind' | Q34176953 | ||
The role of the fusiform face area in social cognition: implications for the pathobiology of autism | Q34183868 | ||
Where do you know what you know? The representation of semantic knowledge in the human brain | Q34715554 | ||
Cerebellar engagement in an action observation network. | Q34988262 | ||
Neural mechanisms for the recognition of biological movements | Q35075740 | ||
Reading about the actions of others: biological motion imagery and action congruency influence brain activity | Q36449418 | ||
Are there theory of mind regions in the brain? A review of the neuroimaging literature | Q37335228 | ||
Attentional Modulation of Cortical Neuromagnetic Gamma Response to Biological Movement | Q60678992 | ||
TOP DOWN EFFECT OF STRATEGY ON THE PERCEPTION OF HUMAN BIOLOGICAL MOTION: A PET INVESTIGATION | Q60690800 | ||
Low-level visual processing of biological motion | Q67524463 | ||
Cerebellum implicated in sensory acquisition and discrimination rather than motor control | Q71042443 | ||
Specific involvement of human parietal systems and the amygdala in the perception of biological motion | Q71106336 | ||
Perception of coherent motion, biological motion and form-from-motion under dim-light conditions | Q73620309 | ||
Activation timecourse of ventral visual stream object-recognition areas: high density electrical mapping of perceptual closure processes | Q74148710 | ||
Domain specificity in visual cortex | Q81597620 | ||
Impaired visual recognition of biological motion in schizophrenia | Q81794779 | ||
Visual search for biological motion: an event-related potential study | Q83824480 | ||
Separation and identification of event-related potential components by brain electric source analysis | Q37370990 | ||
Recognition of biological motion in children with autistic spectrum disorders. | Q38390594 | ||
Effects of lesions of temporal-parietal junction on perceptual and attentional processing in humans | Q42024257 | ||
Repetitive TMS over posterior STS disrupts perception of biological motion | Q43537670 | ||
Perceptual identification thresholds for 150 fragmented pictures from the Snodgrass and Vanderwart picture set. | Q43574948 | ||
Significance testing of difference potentials | Q44485627 | ||
Object-based attentional modulation of biological motion processing: spatiotemporal dynamics using functional magnetic resonance imaging and electroencephalography. | Q44957905 | ||
Point-light biological motion perception activates human premotor cortex. | Q46041410 | ||
Patterns of fMRI activity dissociate overlapping functional brain areas that respond to biological motion | Q47217637 | ||
Task switching: a high-density electrical mapping study | Q47310715 | ||
Functional MRI analysis of body and body part representations in the extrastriate and fusiform body areas | Q47775545 | ||
Decomposing biological motion: a framework for analysis and synthesis of human gait patterns | Q47990994 | ||
Dissociable cortical processing of recognizable and non-recognizable biological movement: analysing gamma MEG activity | Q48102132 | ||
Neural activity involved in the perception of human and meaningful object motion | Q48127328 | ||
Perceiving Biological Motion: Dissociating Visible Speech from Walking | Q48188352 | ||
Separate neural pathways for contour and biological-motion cues in motion-defined animal shapes | Q48276827 | ||
An event-related potentials study of biological motion perception in humans | Q48293219 | ||
Visual recognition of biological motion is impaired in children with autism | Q48352699 | ||
Acquired theory of mind impairments in individuals with bilateral amygdala lesions | Q48435552 | ||
Perception of human motion | Q48449271 | ||
Multisensory auditory-visual interactions during early sensory processing in humans: a high-density electrical mapping study | Q48580737 | ||
Two bilateral sources of the late AEP as identified by a spatio-temporal dipole model | Q48586673 | ||
Neural mechanisms involved in the processing of global and local aspects of hierarchically organized visual stimuli | Q48596409 | ||
Parallel visual motion processing streams for manipulable objects and human movements | Q48640278 | ||
Developmental changes in point-light walker processing during childhood and adolescence: an event-related potential study | Q48694192 | ||
Visual areas involved in the perception of human movement from dynamic form analysis | Q48840282 | ||
Critical features for the recognition of biological motion | Q48874625 | ||
Specificity of regions processing biological motion | Q48876304 | ||
Does perception of biological motion rely on specific brain regions? | Q48915952 | ||
Active processing of biological motion perception: an ERP study | Q48934356 | ||
Perception of biological motion in autism spectrum disorders | Q50310662 | ||
Evidence for distinct contributions of form and motion information to the recognition of emotions from body gestures. | Q50932063 | ||
Estimating the efficiency of recognizing gender and affect from biological motion. | Q51038016 | ||
Spatiotemporal dynamics of human object recognition processing: an integrated high-density electrical mapping and functional imaging study of "closure" processes. | Q51964252 | ||
Use of implicit motor imagery for visual shape discrimination as revealed by PET. | Q52016325 | ||
The relative importance of spatial versus temporal structure in the perception of biological motion: an event-related potential study. | Q52043075 | ||
Attention-based visual routines: sprites. | Q52138481 | ||
Subconfigurations of the human form in the perception of biological motion displays. | Q52174217 | ||
Hemispheric specialization for global and local processing: the effect of stimulus category | Q57700511 | ||
Incidental Processing of Biological Motion | Q57789237 | ||
Active versus Passive Processing of Biological Motion | Q59589581 | ||
THE VISUAL PERCEPTION OF HUMAN LOCOMOTION | Q59589584 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | neurophysiology | Q660910 |
P304 | page(s) | 373-383 | |
P577 | publication date | 2011-01-26 | |
P1433 | published in | NeuroImage | Q1981225 |
P1476 | title | The neurophysiology of human biological motion processing: a high-density electrical mapping study | |
P478 | volume | 56 |
Q101496403 | A Test of Hypotheses for Random Graph Distributions Built from EEG Data |
Q36015055 | A new technique for generating disordered point-light animations for the study of biological motion perception |
Q34732718 | Atypical cortical representation of peripheral visual space in children with an autism spectrum disorder |
Q61806623 | Bilateral engagement of the occipito-temporal cortex in response to dance kinematics in experts |
Q27334972 | Biological motion coding in the brain: analysis of visually driven EEG functional networks |
Q49027562 | Biological motion processing as a hallmark of social cognition |
Q50800632 | Bodily movement of approach is detected faster than that of receding. |
Q40060663 | Building Blocks of Others' Understanding: A Perspective Shift in Investigating Social-Communicative Deficit in Autism. |
Q30847968 | Cerebral Dynamics during the Observation of Point-Light Displays Depicting Postural Adjustments |
Q42142699 | Deficient biological motion perception in schizophrenia: results from a motion noise paradigm |
Q48179399 | Developmental changes in point-light walker processing during childhood: a two-year follow-up ERP study. |
Q35677403 | Direction of Biological Motion Affects Early Brain Activation: A Link with Social Cognition. |
Q47989946 | Dynamics of alpha oscillations elucidate facial affect recognition in schizophrenia |
Q27321019 | Event-related alpha suppression in response to facial motion |
Q47911166 | Human biological and nonbiological point-light movements: Creation and validation of the dataset. |
Q38095427 | Limitations on the developing preterm brain: impact of periventricular white matter lesions on brain connectivity and cognition |
Q50203485 | Modulation of Neural Oscillatory Activity during Dynamic Face Processing. |
Q44125909 | Natural Translating Locomotion Modulates Cortical Activity at Action Observation |
Q28655698 | Neural rhythmic symphony of human walking observation: Upside-down and Uncoordinated condition on cortical theta, alpha, beta and gamma oscillations |
Q52624602 | Observation of Point-Light-Walker Locomotion Induces Motor Resonance When Explicitly Represented; An EEG Source Analysis Study. |
Q27320597 | Sight restoration after congenital blindness does not reinstate alpha oscillatory activity in humans |
Q21090735 | Speed of human biological form and motion processing |
Q90258889 | Structural and effective brain connectivity underlying biological motion detection |
Q34312976 | Structural loop between the cerebellum and the superior temporal sulcus: evidence from diffusion tensor imaging |
Q35063010 | The neurophysiology of biological motion perception in schizophrenia |
Q34021552 | Visual event-related potentials to biological motion stimuli in autism spectrum disorders |
Q35092871 | Visual processing of biological motion in children and adolescents with attention-deficit/hyperactivity disorder: an event related potential-study |
Search more.