TY - JOUR
T1 - Affordance matching predictively shapes the perceptual representation of others’ ongoing actions
AU - McDonough, Katrina L.
AU - Costantini, Marcello
AU - Hudson, Matthew
AU - Ward, Eleanor
AU - Bach, Patric
N1 - Matthew Hudson is now at the School of Business, National College of Ireland. Patric Bach is now at the School of Psychology, University of Aberdeen.A preprint of this article has been uploaded to PsyArXiv and is available at https://psyarxiv.com/mbea2. The data in this article are available at https://osf.io/des8x/. The results have been presented as a poster at the Future of Social Cognition conference (University of East Anglia, United Kingdom, 2018), MeeTo (University of Turin, Italy, 2018), and the British Association for Cognitive Neuroscience Annual Meeting (University of Plymouth, United Kingdom, 2017). Katrina L. McDonough, Marcello Costantini, Matthew Hudson, Eleanor Ward, and Patric Bach devised the experiment. Stimuli were created by Marcello Costantini and edited by Katrina L. McDonough. The program was developed by Matthew Hudson and Katrina L. McDonough. Data were collected by Katrina L. McDonough. Data were analyzed by Katrina L. McDonough, Eleanor Ward, and Patric Bach. The manuscript was written by Katrina L. McDonough, Patric Bach, and Matthew Hudson, and Eleanor Ward provided critical feedback. All authors gave final approval for publication. This work was supported by the Economic and Social Research Council (Grant ES/J019178/1) awarded to Patric Bach, and a University of Plymouth doctoral student grant awarded to Katrina L. McDonough.
PY - 2020/8
Y1 - 2020/8
N2 - Predictive processing accounts of social perception argue that action observation is a predictive process, in which inferences about others’ goals are tested against the perceptual input, inducing a subtle perceptual confirmation bias that distorts observed action kinematics toward the inferred goals. Here we test whether such biases are induced even when goals are not explicitly given but have to be derived from the unfolding action kinematics. In 2 experiments, participants briefly saw an actor reach ambiguously toward a large object and a small object, with either a whole-hand power grip or an index-finger and thumb precision grip. During its course, the hand suddenly disappeared, and participants reported its last seen position on a touch-screen. As predicted, judgments were consistently biased toward apparent action targets, such that power grips were perceived closer to large objects and precision grips closer to small objects, even if the reach kinematics were identical. Strikingly, these biases were independent of participants’ explicit goal judgments. They were of equal size when action goals had to be explicitly derived in each trial (Experiment 1) or not (Experiment 2) and, across trials and across participants, explicit judgments and perceptual biases were uncorrelated. This provides evidence, for the first time, that people make online adjustments of observed actions based on the match between hand grip and object goals, distorting their perceptual representation toward implied goals. These distortions may not reflect high-level goal assumptions, but emerge from relatively low-level processing of kinematic features within the perceptual system.
AB - Predictive processing accounts of social perception argue that action observation is a predictive process, in which inferences about others’ goals are tested against the perceptual input, inducing a subtle perceptual confirmation bias that distorts observed action kinematics toward the inferred goals. Here we test whether such biases are induced even when goals are not explicitly given but have to be derived from the unfolding action kinematics. In 2 experiments, participants briefly saw an actor reach ambiguously toward a large object and a small object, with either a whole-hand power grip or an index-finger and thumb precision grip. During its course, the hand suddenly disappeared, and participants reported its last seen position on a touch-screen. As predicted, judgments were consistently biased toward apparent action targets, such that power grips were perceived closer to large objects and precision grips closer to small objects, even if the reach kinematics were identical. Strikingly, these biases were independent of participants’ explicit goal judgments. They were of equal size when action goals had to be explicitly derived in each trial (Experiment 1) or not (Experiment 2) and, across trials and across participants, explicit judgments and perceptual biases were uncorrelated. This provides evidence, for the first time, that people make online adjustments of observed actions based on the match between hand grip and object goals, distorting their perceptual representation toward implied goals. These distortions may not reflect high-level goal assumptions, but emerge from relatively low-level processing of kinematic features within the perceptual system.
KW - action understanding
KW - action prediction
KW - social perception
KW - predictive processing
KW - representational momentum
KW - MOMENTUM
KW - KNOWLEDGE
KW - STIMULI
KW - MIRROR
KW - EXTRAPOLATION
KW - ORGANIZATION
KW - ANIMACY
KW - MOTION
KW - INTENTIONALITY
KW - SPATIAL MEMORY
KW - Social perception
KW - Action understanding
KW - Predictive processing
KW - Representational momentum
KW - Action prediction
UR - http://www.scopus.com/inward/record.url?scp=85084863199&partnerID=8YFLogxK
U2 - 10.1037/xhp0000745
DO - 10.1037/xhp0000745
M3 - Article
VL - 46
SP - 847
EP - 859
JO - Journal of Experimental Psychology: Human Perception and Performance
JF - Journal of Experimental Psychology: Human Perception and Performance
SN - 0096-1523
IS - 8
ER -
