The dynamics of the interrelation of perception and action across the life span (original) (raw)
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The interrelations of action perception and action production across the life span
2018
Social interaction requires the anticipation of our interlocutors' behaviour. Through this anticipation we are able to adjust our actions to our counterparts' intentions and implicit goals. The ability to anticipate others' action goals is based on a tight coupling between our perception of actions and our action production ability. However, action perception and production undergo lifelong developmental change and so might their coupling. Therefore, this thesis aims at describing the life span trajectory of the interrelations of action perception and production. Using eye-tracking technology and behavioural measures, action perception and production of participants between 3 and 80 years were assessed within three consecutive cross-sectional studies. Results indicate a relatively stable deferred influence of perception on production across the life span. In contrast, the immediate influences within the coupling were accentuated towards late adulthood. Furthermore, these age-related differences were influenced by the participants' accumulated action experience across the life span and their motor competence. Taken together, the findings of this thesis show stability and variability in the action perception-production coupling across the life span in relation to (age-dependent) individual characteristics.
Interference of action perception on action production increases across the adult life span
Experimental brain research, 2018
Action perception and action production are assumed to be based on an internal simulation process that involves the sensorimotor system. This system undergoes changes across the life span and is assumed to become less precise with age. In the current study, we investigated how increasing age affects the magnitude of interference in action production during simultaneous action perception. In a task adapted from Brass et al. (Brain Cogn 44(2):124-143, 2000), we asked participants (aged 20-80 years) to respond to a visually presented finger movement and/or symbolic cue by executing a previously defined finger movement. Action production was assessed via participants' reaction times. Results show that participants were slower in trials in which they were asked to ignore an incongruent finger movement compared to trials in which they had to ignore an incongruent symbolic cue. Moreover, advancing age was shown to accentuate this effect. We suggest that the internal simulation of the a...
Cognitive Processing, 2021
Recent theories stress the role of situational information in understanding others’ behaviour. For example, the predictive coding framework assumes that people take contextual information into account when anticipating other’s actions. Likewise, the teleological stance theory assumes an early developing ability to consider situational constraints in action prediction. The current study investigates, over a wide age range, whether humans flexibly integrate situational constraints in their action anticipations. By means of an eye-tracking experiment, 2-year-olds, 5-year-olds, younger and older adults (together N = 181) observed an agent repeatedly taking one of two paths to reach a goal. Then, this path became blocked, and for test trials only the other path was passable. Results demonstrated that in test trials younger and older adults anticipated that the agent would take the continuous path, indicating that they took the situational constraints into account. In contrast, 2- and 5-y...
Age-related decline in the reflexive component of overt gaze following
The Quarterly Journal of Experimental Psychology, 2014
Previous research has found age-related declines in social perception tasks as well as the ability to engage in joint attention and orienting covert attention (i.e., absence of eye movements) in response to an eye gaze cue. We used an overt gaze following task to explore age differences in overt gaze following whilst people searched for a target. Participants were faster to detect targets appearing at the looked-at location, and although the gaze cue biased the direction in which saccades were executed, no age differences were found in overt gaze following. There were, however, age effects relating to involuntary eye movements. In the younger adults, anticipatory saccades were biased in the direction of the gaze cue, but this bias was not observed in the older group. Moreover, in the younger adults, saccades that followed the gaze were initiated more rapidly, illustrating the reflexive nature of gaze following. No such difference was observed in the older adults. Importantly, our results showed that whilst the general levels of gaze following were age invariant, there were age-related differences in the reflexive components of overt gaze following.
Psychological research, 2017
Action perception and action production are tightly linked and elicit bi-directional influences on each other when performed simultaneously. In this study, we investigated whether age-related differences in manual fine-motor competence and/or age affect the (interfering) influence of action production on simultaneous action perception. In a cross-sectional eye-tracking study, participants of a broad age range (N = 181, 20-80 years) observed a manual grasp-and-transport action while performing an additional motor or cognitive distractor task. Action perception was measured via participants' frequency of anticipatory gaze shifts towards the action goal. Manual fine-motor competence was assessed with the Motor Performance Series. The interference effect in action perception was greater in the motor than the cognitive distractor task. Furthermore, manual fine-motor competence and age in years were both associated with this interference. The better the participants' manual fine-m...
Age‐related changes in duration production for familiar actions
British Journal of Developmental Psychology, 2019
The present study dealt with an aspect of temporal cognition that is rarely discussed in the literature: the ability to estimate the duration of familiar actions. In everyday life, we often have to process both very short durations (e.g., when we are driving), but we also have to deal with actions or events that last for several minutes or even hours (e.g., watching a film). The aim of our study was to examine whether young children aged six and 9 years and adults are able to estimate the time usually taken by various familiar actions to perform using a production task. More precisely, they were successively presented with photographs of familiar actions that usually take more (e.g., blown a balloon up) or less (e.g., blow a candle out) time to perform. As soon as a photograph was presented on the screen, they have to start estimating the time taken to perform the depicted action and press the space bar when they think that this time has elapsed. Results showed that the 6‐year‐olds ...
Age Differences in the Control of Looking Behavior: Do You Know Where Your Eyes Have Been?
Psychological Science, 2000
Previous research has shown that during visual search young and old adults' eye movements are equivalently influenced by the appearance of task-irrelevant abrupt onsets. The finding of ageequivalent oculomotor capture is quite surprising in light of the abundant research suggesting that older adults exhibit poorer inhibitory control than young adults on a variety of different tasks. In the present study, we examined the hypothesis that oculomotor capture is age invariant when subjects' awareness of the appearance of taskirrelevant onsets is low, but that older adults will have more difficulty than young adults in inhibiting reflexive eye movements to taskirrelevant onsets when awareness of these objects is high. Our results were consistent with the level-of-awareness hypothesis. Young and old adults showed equivalent patterns of oculomotor capture with equiluminant onsets, but older adults misdirected their eyes to bright onsets more often than young adults did.
The Timing and Precision of Action Prediction in the Aging Brain
Successful social interactions depend on the ability to anticipate other people's actions. Current conceptualizations of brain function propose that causes of sensory input are inferred through their integration with internal predictions generated in the observer's motor system during action observation. Less is known concerning how action prediction changes with age. Previously we showed that internal action representations are less specific in older compared with younger adults at behavioral and neural levels. Here, we characterize how neural activity varies while healthy older adults aged 56–71 years predict the time-course of an unfolding action as well as the relation to task performance. By using fMRI, brain activity was measured while participants observed partly occluded actions and judged the temporal coherence of the action continuation that was manipulated. We found that neural activity in frontoparietal and occipitotemporal regions increased the more an action continuation was shifted backwards in time. Action continuations that were shifted towards the future preferentially engaged early visual cortices. Increasing age was associated with neural activity that extended from posterior to anterior regions in frontal and superior temporal cortices. Lower sensitivity in action prediction resulted in activity increases in the caudate. These results imply that the neural implementation of predicting actions undergoes similar changes as the neural process of executing actions in older adults. The comparison between internal predictions and sensory input seems to become less precise with age leading to difficulties in anticipating observed actions accurately, possibly due to less specific internal action models. Hum Brain Mapp 00:000–000, 2015. V C 2015 The Authors Human Brain Mapping Published by Wiley Periodicals, Inc.
Representing Others' Actions: The Role of Expertise in the Aging Mind
Abstract A large body of evidence suggests that action execution and action observation share a common representational domain. To date, little is known about age-related changes in these action representations that are assumed to support various abilities such as the prediction of observed actions. The purpose of the present study was to investigate (a) how age affects the ability to predict the time course of observed actions; and (b) whether and to what extent sensorimotor expertise attenuates age-related declines in prediction performance. In a first experiment, older adults predicted the time course of familiar everyday actions less precisely than younger adults. In a second experiment, younger and older figure skating experts as well as age-matched novices were asked to predict the time course of figure skating elements and simple movement exercises. Both young age and sensorimotor expertise had a positive influence on prediction performance of figure skating elements. The expertise-related benefit did not show a transfer to movement exercises. Together, the results suggest a specific decline of action representations in the aging mind. However, extensive sensorimotor experience seems to enable experts to represent actions from ther domain of expertise more precisely even in older age.