The Influence of Skill and Task Complexity on Perception of Nested Affordances

Overview

Journal Atten Percept Psychophys

Publisher Springer

Specialties Psychiatry
Psychology

Date 2021 Aug 20

PMID 34414530

Citations 4

Authors

Ludovic Seifert

Matt Dicks

Frieder Wittmann

Peter Wolf

Affiliations

Soon will be listed here.

Abstract

This study investigated how skill level and task complexity influence the calibration of perception-action and particularly how close an individual acts relative to his or her maximal action capabilities. Complexity was manipulated between two (Touch, Grasp) and more than two (Removing, Moving Up) nested affordance conditions. For all conditions, we examined whether advanced climbers had greater maximal action capabilities than intermediate climbers or whether they better scaled their action (i.e., acted nearer to their maximal action capabilities) or both. Eleven intermediate and 11 advanced male climbers were first asked to estimate the maximum distance that they could reach a climbing hold. The hold was moved along a slide and fixed once requested by the participant; subsequently, the distance to the starting hold was measured. After each estimation, the participant was required to execute the climbing action. After four estimation-action trials in each of the four conditions, the maximal action capability (i.e., actual maximal reaching distance) was determined. Advanced climbers demonstrated greater actual maximal reaching distances than intermediate climbers for all conditions, but they only estimated greater maximal reaching distances for the more complex conditions, which featured more than two nested affordances. When estimated maximal reaching distances were scaled to actual maximal reaching distances, advanced climbers did not differ from intermediate climbers for any condition, and there were no differences between conditions. Our findings indicate that expertise was a function of greater action capabilities, but not due to the accuracy of calibration.

Citing Articles

Towards Automatic Object Detection and Activity Recognition in Indoor Climbing.

Vrzakova H, Koskinen J, Andberg S, Lee A, Amon M Sensors (Basel). 2024; 24(19).

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Perceiving affordances and the problem of visually indiscernible kinds.

Hansen M Front Psychol. 2024; 15:1388852.

PMID: 39295750 PMC: 11409843. DOI: 10.3389/fpsyg.2024.1388852.

Embodied planning in climbing: how pre-planning informs motor execution.

Luis-Del Campo V, Morenas Martin J, Musculus L, Raab M Front Psychol. 2024; 15:1337878.

PMID: 38440247 PMC: 10911288. DOI: 10.3389/fpsyg.2024.1337878.

The Ecological Dynamics Framework: An Innovative Approach to Performance in Extreme Environments: A Narrative Review.

Seifert L, Hacques G, Komar J Int J Environ Res Public Health. 2022; 19(5).

PMID: 35270446 PMC: 8910696. DOI: 10.3390/ijerph19052753.

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