| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/J.COGNITION.2010.09.004 |
| P953 | full work available at URL | https://api.elsevier.com/content/article/PII:S0010027710002179?httpAccept=text/plain |
| https://api.elsevier.com/content/article/PII:S0010027710002179?httpAccept=text/xml | ||
| P698 | PubMed publication ID | 21047624 |
| P5875 | ResearchGate publication ID | 47675429 |
| P50 | author | Heinrich Bülthoff | Q1596905 |
| Karin S Pilz | Q42592251 | ||
| Quoc C. Vuong | Q46652186 | ||
| Ian M Thornton | Q57069990 | ||
| P2860 | cites work | Six views of embodied cognition | Q22305484 |
| THE MIRROR-NEURON SYSTEM | Q22337026 | ||
| The observation and execution of actions share motor and somatosensory voxels in all tested subjects: single-subject analyses of unsmoothed fMRI data | Q24649828 | ||
| The Psychophysics Toolbox | Q27861071 | ||
| fMRI Responses to Video and Point-Light Displays of Moving Humans and Manipulable Objects | Q28184046 | ||
| Visual perception of biological motion and a model for its analysis | Q29038554 | ||
| The VideoToolbox software for visual psychophysics: transforming numbers into movies | Q29547363 | ||
| The distributed human neural system for face perception | Q29619352 | ||
| Functional organization of inferior area 6 in the macaque monkey | Q30051337 | ||
| Why bodies? Twelve reasons for including bodily expressions in affective neuroscience | Q30382216 | ||
| Perception and Action Planning | Q30464370 | ||
| Evidence of mirror neurons in human inferior frontal gyrus | Q30492168 | ||
| Electrophysiology and brain imaging of biological motion | Q30784643 | ||
| Towards the neurobiology of emotional body language | Q31032857 | ||
| Temporal cortex activation in humans viewing eye and mouth movements. | Q32108829 | ||
| Neural mechanisms of social attention | Q33410039 | ||
| Social perception from visual cues: role of the STS region | Q33906227 | ||
| Brain Areas Active during Visual Perception of Biological Motion | Q34152299 | ||
| Seeing the action: neuropsychological evidence for action-based effects on object selection | Q34163041 | ||
| Understanding face recognition | Q34189631 | ||
| Effects of temporal association on recognition memory | Q35319663 | ||
| Visual mechanisms of motion analysis and motion perception | Q35639010 | ||
| Representational momentum and related displacements in spatial memory: A review of the findings | Q36416388 | ||
| Perceptual resonance: action-induced modulation of perception | Q36880674 | ||
| The role of context in object recognition | Q37006974 | ||
| Natural facial motion enhances cortical responses to faces. | Q37371798 | ||
| Seeing the future: Natural image sequences produce "anticipatory" neuronal activity and bias perceptual report. | Q37532209 | ||
| How many pixels make an image? | Q38383675 | ||
| Familiar interacting object pairs are perceptually grouped | Q38403493 | ||
| Scene consistency in object and background perception | Q38420915 | ||
| Size in the visual processing of faces and words | Q38492686 | ||
| Brain activity during observation of actions. Influence of action content and subject's strategy | Q38839995 | ||
| The role of dynamic information in the recognition of unfamiliar faces | Q40846789 | ||
| Group reaction time distributions and an analysis of distribution statistics | Q41650604 | ||
| The effects of contextual scenes on the identification of objects. | Q46022652 | ||
| Point-light biological motion perception activates human premotor cortex. | Q46041410 | ||
| The reviewing of object files: object-specific integration of information | Q46227218 | ||
| Looming biases in monkey auditory cortex. | Q48206793 | ||
| Brain activity evoked by the perception of human walking: controlling for meaningful coherent motion. | Q48238753 | ||
| Premotor cortex neurons in macaques: activity before distal and proximal forelimb movements | Q48379247 | ||
| Evidence accumulation in cell populations responsive to faces: an account of generalisation of recognition without mental transformations. | Q48396559 | ||
| About turn: the visual representation of human body orientation revealed by adaptation. | Q48719214 | ||
| Localization of grasp representations in humans by PET: 1. Observation versus execution | Q48926228 | ||
| Evidence for an early motion system which integrates information from the two eyes | Q49107886 | ||
| Detection by action: neuropsychological evidence for action-defined templates in search | Q49120889 | ||
| Hemispheric competition in left-handers on bimanual reaction time tasks | Q49158323 | ||
| Persistent fear responses in rhesus monkeys to the optical stimulus of "looming". | Q51355835 | ||
| The use of facial motion and facial form during the processing of identity. | Q51638849 | ||
| Using confidence intervals in within-subject designs. | Q51651357 | ||
| Matching identities of familiar and unfamiliar faces caught on CCTV images. | Q51962440 | ||
| Memory for moving and static images. | Q51968637 | ||
| Distinct representations of eye gaze and identity in the distributed human neural system for face perception. | Q51979075 | ||
| Structural similarity and spatiotemporal noise effects on learning dynamic novel objects. | Q52017839 | ||
| An advantage for detecting dynamic targets in natural scenes. | Q52025546 | ||
| A search advantage for faces learned in motion. | Q52032298 | ||
| Rotation direction affects object recognition. | Q52089582 | ||
| Categorizing sex and identity from the biological motion of faces. | Q52130684 | ||
| Attention-based visual routines: sprites. | Q52138481 | ||
| Object recognition using spatiotemporal signatures. | Q52185997 | ||
| Face recognition under varying poses: the role of texture and shape. | Q52201314 | ||
| Shape representation in the inferior temporal cortex of monkeys | Q52208794 | ||
| Infant responses to impending collision: optical and real. | Q52330344 | ||
| PERCEPTION OF IMPENDING COLLISION: A STUDY OF VISUALLY DIRECTED AVOIDANT BEHAVIOR. | Q52350523 | ||
| Object recognition: view-specificity and motion-specificity. | Q52920658 | ||
| Searching for objects in real-world scenes | Q56082085 | ||
| Visual motion and attentional capture | Q56554902 | ||
| Systemtheoretische Analyse der Zeit-, Reihenfolgen- und Vorzeichenauswertung bei der Bewegungsperzeption des Rüsselkäfers Chlorophanus | Q57308144 | ||
| Learning influences the encoding of static and dynamic faces and their recognition across different spatial frequencies | Q57789131 | ||
| Incidental Processing of Biological Motion | Q57789237 | ||
| Speed of processing in the human visual system | Q59070276 | ||
| Attentional networks and biological motion | Q59589576 | ||
| Active versus Passive Processing of Biological Motion | Q59589581 | ||
| THE VISUAL PERCEPTION OF HUMAN LOCOMOTION | Q59589584 | ||
| Combining neuropharmacology and behavior to study motion detection in flies | Q63982385 | ||
| Motion mechanisms in macaque MT | Q64852905 | ||
| Visual Motion Perception | Q66950546 | ||
| Considerations on models of movement detection | Q68676508 | ||
| Approach response of domestic chicks to an optical display | Q71991801 | ||
| Recognition of objects and their component parts: responses of single units in the temporal cortex of the macaque | Q72447713 | ||
| Methods for dealing with reaction time outliers | Q72685160 | ||
| Recognizing moving faces: a psychological and neural synthesis | Q74210252 | ||
| Measuring keyboard response delays by comparing keyboard and joystick inputs | Q74439680 | ||
| Moving and looming stimuli capture attention | Q79365819 | ||
| Multisensory integration of looming signals by rhesus monkeys | Q80354632 | ||
| Recognizing Famous Faces: Exploring the Benefits of Facial Motion | Q111239474 | ||
| Face Recognition in Poor-Quality Video: Evidence From Security Surveillance | Q112075740 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | recognition | Q12407219 |
| P304 | page(s) | 17-31 | |
| P577 | publication date | 2010-11-02 | |
| P1433 | published in | Cognition | Q15749512 |
| P1476 | title | Walk this way: Approaching bodies can influence the processing of faces | |
| P478 | volume | 118 |
| Q92410357 | An advantage for horizontal motion direction discrimination |
| Q98627055 | Can we recognize people based on their body-alone? The roles of body motion and whole person context |
| Q30573507 | Developmental changes in attention to faces and bodies in static and dynamic scenes. |
| Q48290384 | Dissecting the time course of person recognition in natural viewing environments |
| Q49598072 | Face recognition of full-bodied avatars by active observers in a virtual environment |
| Q49689215 | Representational momentum in dynamic facial expressions is modulated by the level of expressed pain: Amplitude and direction effects |
| Q36401319 | Spatial frequency integration during active perception: perceptual hysteresis when an object recedes |
| Q50527841 | The contribution of the body and motion to whole person recognition. |
| Q38734864 | Using a Kinect sensor to acquire biological motion: Toolbox and evaluation |
Search more.