Human biological and nonbiological point-light movements: Creation and validation of the dataset

[1]  Anne Springer,et al.  Dynamic Simulation and Static Matching for Action Prediction: Evidence From Body Part Priming , 2013, Cogn. Sci..

[2]  K. Verfaillie,et al.  Further Explorations of the Facing Bias in Biological Motion Perception: Perspective Cues, Observer Sex, and Response Times , 2013, PloS one.

[3]  R. Adorni,et al.  Who needs a referee? How incorrect basketball actions are automatically detected by basketball players' brain , 2012, Scientific Reports.

[4]  G. Gredebäck,et al.  Humans Anticipate the Goal of other People’s Point-Light Actions , 2012, Front. Psychology.

[5]  Neil G. Muggleton,et al.  Effects of TMS over Premotor and Superior Temporal Cortices on Biological Motion Perception , 2012, Journal of Cognitive Neuroscience.

[6]  J. Parkinson,et al.  Movement kinematics affect action prediction: comparing human to non-human point-light actions , 2012, Psychological Research.

[7]  Pejman Sehatpour,et al.  The neurophysiology of human biological motion processing: A high-density electrical mapping study , 2011, NeuroImage.

[8]  J. P. Thomas,et al.  I can see you better if I can hear you coming: action-consistent sounds facilitate the visual detection of human gait. , 2010, Journal of vision.

[9]  P. Haggard,et al.  Experts see it all: configural effects in action observation , 2010, Psychological research.

[10]  N. Troje,et al.  The facing bias in biological motion perception: Effects of stimulus gender and observer sex , 2010, Attention, perception & psychophysics.

[11]  F. Pollick,et al.  Expertise with multisensory events eliminates the effect of biological motion rotation on audiovisual synchrony perception. , 2010, Journal of vision.

[12]  N. Troje,et al.  Why is the average walker male , 2010 .

[13]  R. Kakigi,et al.  EVELOPMENTAL CHANGES IN POINT-LIGHT WALKER PROCESSING URING CHILDHOOD AND ADOLESCENCE: AN EVENT-RELATED OTENTIAL STUDY , 2022 .

[14]  N. Troje,et al.  Gender bending: auditory cues affect visual judgements of gender in biological motion displays , 2009, Experimental Brain Research.

[15]  Claudio Del Percio,et al.  Judgment of actions in experts: A high-resolution EEG study in elite athletes , 2009, NeuroImage.

[16]  Wolfgang Prinz,et al.  Predicting point-light actions in real-time , 2007, NeuroImage.

[17]  J. Pineda,et al.  Recognition of point-light biological motion: Mu rhythms and mirror neuron activity , 2007, Behavioural Brain Research.

[18]  R. Passingham,et al.  Seeing or Doing? Influence of Visual and Motor Familiarity in Action Observation , 2006, Current Biology.

[19]  K. Nakayama,et al.  Adaptation aftereffects in the perception of gender from biological motion. , 2006, Journal of vision.

[20]  K. Verfaillie,et al.  Perceiving depth in point-light actions , 2006, Perception & psychophysics.

[21]  F. Pollick,et al.  A motion capture library for the study of identity, gender, and emotion perception from biological motion , 2006, Behavior research methods.

[22]  Jim W Kay,et al.  Gender recognition from point-light walkers. , 2005, Journal of experimental psychology. Human perception and performance.

[23]  Á. Pascual-Leone,et al.  Repetitive TMS over posterior STS disrupts perception of biological motion , 2005, Vision Research.

[24]  R. Passingham,et al.  Action observation and acquired motor skills: an FMRI study with expert dancers. , 2005, Cerebral cortex.

[25]  A. Williams,et al.  An evaluation of the minimal constraining information during observation for movement reproduction. , 2005, Acta psychologica.

[26]  Karl Verfaillie,et al.  Perception of biological motion: A stimulus set of human point-light actions , 2004, Behavior research methods, instruments, & computers : a journal of the Psychonomic Society, Inc.

[27]  M. Sereno,et al.  Point-Light Biological Motion Perception Activates Human Premotor Cortex , 2004, The Journal of Neuroscience.

[28]  F. Binkofski,et al.  The mirror neuron system and action recognition , 2004, Brain and Language.

[29]  J. Haxby,et al.  fMRI Responses to Video and Point-Light Displays of Moving Humans and Manipulable Objects , 2003, Journal of Cognitive Neuroscience.

[30]  Karl Verfaillie,et al.  Creating stimuli for the study of biological-motion perception , 2002, Behavior research methods, instruments, & computers : a journal of the Psychonomic Society, Inc.

[31]  C. Karen Liu,et al.  Synthesis of complex dynamic character motion from simple animations , 2002, ACM Trans. Graph..

[32]  Harry Shum,et al.  Motion texture: a two-level statistical model for character motion synthesis , 2002, ACM Trans. Graph..

[33]  R. Blake,et al.  Brain Areas Involved in Perception of Biological Motion , 2000, Journal of Cognitive Neuroscience.

[34]  Aaron Hertzmann,et al.  Style machines , 2000, SIGGRAPH 2000.

[35]  R. Blake,et al.  Perception of Biological Motion , 1997, Perception.

[36]  David C. Brogan,et al.  Animating human athletics , 1995, SIGGRAPH.

[37]  G. Mather,et al.  Gender discrimination in biological motion displays based on dynamic cues , 1994, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[38]  K. Verfaillie,et al.  Transsaccadic integration of biological motion. , 1994, Journal of experimental psychology. Learning, memory, and cognition.

[39]  J. Cutting Generation of Synthetic Male and Female Walkers through Manipulation of a Biomechanical Invariant , 1978, Perception.

[40]  G. Johansson Visual perception of biological motion and a model for its analysis , 1973 .

[41]  N. Troje,et al.  The facing bias in biological motion perception: structure, kinematics, and body parts , 2011, Attention, perception & psychophysics.

[42]  T. Shipley,et al.  Markerless motion-capture for point-light displays , 2003 .