Augmented feedback influences upper limb reaching movement times but does not explain violations of Fitts' Law

Date

2015-01-16

Journal Title

Journal ISSN

Volume Title

Publisher

Frontiers Media

Abstract

Fitts' (1954) classic theorem asserts that the movement time (MT) of voluntary reaches is determined by amplitude and width requirements (i.e., index of difficulty: ID). Actions associated with equivalent IDs should elicit equivalent MTs regardless of the amplitude and/ or width requirements. However, contemporary research has reported that amplitude-based contributions to IDs yield larger increases in MTs than width-based contributions. This discrepancy may relate to the presence of augmented terminal feedback in Fitts' original research, which has not been provided in more recent investigations (e.g., Heath et al., 2011). To address this issue, participants performed reaching movements during two sessions wherein feedback regarding terminal accuracy was either provided or withheld. It was hypothesized that the absence of augmented terminal feedback would result in a stereotyped performance across target widths and explain the violation of Fitts' theorem. Yet, the results revealed distinct influences of amplitude- and width-based manipulations on MT, which also persisted across feedback conditions. This finding supports the assertion that the unitary nature of Fitts' theorem does not account for a continuous range of movement amplitudes and target widths. A secondary analysis was competed in an attempt to further investigate the violation of Fitts' Law. Based on error rates, participants were segregated into accuracy- and speed-prone groups. Additionally, target's IDs were recalculated based on each participant's performance using the effective target width (i.e., IDWe) instead of the nominal target width. When using MT data from the accuracy-prone group with this IDWe, the aforementioned violation was alleviated. Overall, augmented terminal feedback did not explain the violation of Fitts' theorem, although one should consider using the effective target width and participant's strategy in future investigations.

Description

Keywords

Citation

de Grosbois, J., Heath, M., & Tremblay, L. (2015). Augmented feedback influences upper limb reaching movement times but does not explain violations of Fitts’ Law. Frontiers in Psychology, 6:800. DOI: 10.3389/fpsyg.2015.00800

DOI

10.3389/fpsyg.2015.00800

ISSN

1664-1078

Creative Commons

Attribution 4.0 International

Items in TSpace are protected by copyright, with all rights reserved, unless otherwise indicated.