Task difficulty and inertial properties of hand-held tools: An assessment of their concurrent effects on precision aiming

Task difficulty and inertial properties of hand-held tools: An assessment of their concurrent effects on precision aiming

Aiming hand-held tools at targets in space entails adjustments in the dynamical organization of aiming patterns according to the required precision. We asked whether and how these adjustments are modified by the tool’s mass distribution. Twelve participants performed reciprocal aiming movements with...

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Veröffentlicht in:Human movement science 2016-08, Vol.48, p.161-170
Hauptverfasser: Silva, Paula L., Bootsma, Reinoud J., Figueiredo, Priscilla Rezende Pereira, Avelar, Bruna Silva, de Andrade, André Gustavo Pereira, Fonseca, Sérgio T., Mancini, Marisa Cotta
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Sprache:eng
Schlagworte:
Adult
Biomechanical Phenomena
Cognitive science
Female
Fitts’ task
Hand - physiology
Humans
Kinematics
Long-shafted probe
Male
Mass distribution
Psychology
Psychomotor Performance - physiology
Reaction Time
Reciprocal aiming
Young Adult
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container_end_page 170
container_issue
container_start_page 161
container_title Human movement science
container_volume 48
creator Silva, Paula L.
Bootsma, Reinoud J.
Figueiredo, Priscilla Rezende Pereira
Avelar, Bruna Silva
de Andrade, André Gustavo Pereira
Fonseca, Sérgio T.
Mancini, Marisa Cotta
description Aiming hand-held tools at targets in space entails adjustments in the dynamical organization of aiming patterns according to the required precision. We asked whether and how these adjustments are modified by the tool’s mass distribution. Twelve participants performed reciprocal aiming movements with a 50-cm long wooden probe. Kinematic patterns of probe movements were used as a window into the behavioral dynamic underlying performance of a reciprocal aiming task. We crossed three levels of task difficulty (IDs 2.8, 4.5 and 6.1) with two types of probe varying in their mass distribution (proximal vs distal loading). Movement duration was affected by task difficulty and probe loading (shorter for larger targets and proximal probe loading). Progressive deviations from a sinusoidal movement pattern were observed as task difficulty increased. Such deviations were more pronounced with proximal probe loading. Results point to a higher degree of non-linearity in aiming dynamics when the probe was loaded proximally, which might reflect employment of additional perceptual-motor processes to control the position of its less stable tip at the vicinity of the targets. More generally, the effects of probe loading on aiming pattern and dynamics suggest that perceptual-motor processes responding to task level constraints are sensitive to, and not independent from, biomechanical, end-effector constraints.
doi_str_mv 10.1016/j.humov.2016.05.003
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subjects Adult
Biomechanical Phenomena
Cognitive science
Female
Fitts’ task
Hand - physiology
Humans
Kinematics
Long-shafted probe
Male
Mass distribution
Psychology
Psychomotor Performance - physiology
Reaction Time
Reciprocal aiming
Young Adult
title Task difficulty and inertial properties of hand-held tools: An assessment of their concurrent effects on precision aiming
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