Abstract
Motor priming studies have suggested that human movements are mentally represented in the order in which they usually occur (i.e., chronologically). In this study, we investigated whether we could find evidence for these chronological representations using a paradigm which has frequently been employed to reveal biases in the perceived temporal order of events—the temporal-order judgement task. We used scrambled and unscrambled images of early and late movement phases from an everyday action sequence (“stepping”) and an expert action sequence (“sprinting”) to examine whether participants’ mental representations of actions would bias their temporal-order judgements. In addition, we explored whether motor expertise mediated the size of temporal-order judgement biases by comparing the performances of sprinting experts with those of non-experts. For both action types, we found significant temporal-order judgement biases for all participants, indicating that there was a tendency to perceive images of human action sequences in their natural order, independent of motor expertise. Although there was no clear evidence that sprinting experts showed larger biases for sprinting action sequences than non-experts, considering sports expertise in a broader sense provided some tentative evidence for the idea that temporal-order judgement biases may be mediated by more general motor and/or perceptual familiarity with the running action rather than specific motor expertise.
Highlights
To successfully interact with our environment, we must be able to anticipate and understand the actions of other people when planning our own actions
The aim of this study was to determine whether individuals are biased towards perceiving images of human movement phases as appearing in their natural movement order, and, if this is the case, whether these temporal-order judgements are influenced by motor expertise
We investigated these questions by presenting images of stepping and sprinting action sequences to sprinters and non-sprinters in a temporal-order judgement task
Summary
To successfully interact with our environment, we must be able to anticipate and understand the actions of other people when planning our own actions. Along with our intuitions about physics and familiarity with behavioural conventions, knowledge of how human bodies usually move helps us to make predictions about potential future movements. The anticipatory nature of movement perception has been most convincingly demonstrated by the representational momentum effect, which refers to the observation that the last remembered location of a moving stimulus is reliably displaced further along its movement path (e.g., Finke & Freyd, 1985; Freyd & Finke, 1984; Hubbard, 2005). The representational momentum effect constitutes an “error” of perception—that is, the perceived stimulus location differs from the actual stimulus location—it is assumed to function as an adaptive anticipatory mechanism that helps to extrapolate the future position of a target. The effect compensates for neural delays in the visual system, which allows us to time our actions more precisely (e.g., intercepting a thrown ball)
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