Journal ArticleDOI
A linear optical trajectory informs the fielder where to run to the side to catch fly balls
TLDR
This investigation of open-loop failure conditions has led to new insights such as the reorientation of the fielder, and it supports the use of maintaining matching rates of vertical and lateral optical ball movement consistent with primacy of the LOT control mechanism even when interception is unachievable.Abstract:
P. McLeod, N. Reed, and Z. Dienes (2002) argued that the linear optical trajectory (LOT) strategy incorrectly cues fielders to run forward for balls headed beyond them. The authors of this article explain that the downward optical curvature found for balls landing beyond the fielder's initial position occurs because the balls reorient the direction the fielder is facing during pursuit. Thus, when downward optical curvature begins, the ball is headed to land in front of where the fielder is facing and running. This investigation of open-loop failure conditions has led to new insights such as the reorientation of the fielder, and it supports the use of maintaining matching rates of vertical and lateral optical ball movement consistent with primacy of the LOT control mechanism even when interception is unachievable.read more
Citations
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Journal ArticleDOI
Visuo-motor coordination and internal models for object interception
TL;DR: It is shown that visual cues alone are insufficient to predict the time and place of interception or avoidance, and they need to be supplemented by prior knowledge (or internal models) about several features of the dynamic interaction with the moving object.
Journal ArticleDOI
Affordance-Based Control of Visually Guided Action
TL;DR: Comparison and contrast existing theoretical approaches to understanding the visual guidance of action are compared and a new approach, affordance-based control, is introduced, which asserts that a primary function of vision is to allow actors to see the world in terms of what they can and cannot do.
Journal ArticleDOI
The generalized optic acceleration cancellation theory of catching.
TL;DR: The authors show that a simulated fielder implementing the GOAC strategy follows a path indistinguishable from that of real fielders running to catch balls thrown on the same trajectories.
Journal ArticleDOI
Implicit knowledge and motor skill: what people who know how to catch don't know.
TL;DR: People are unable to report how they decide whether to move backwards or forwards to catch a ball, demonstrating unconscious knowledge co-existing with systematically different conscious beliefs.
Journal ArticleDOI
Optic variables used to judge future ball arrival position in expert and novice soccer players
TL;DR: Using immersive interactive virtual reality to simulate the aerodynamics of the trajectory of a ball with and without sidespin, the present study examined the ability of expert and novice soccer players to make judgments about the ball’s future arrival position.
References
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Journal ArticleDOI
How baseball outfielders determine where to run to catch fly balls
TL;DR: This study supports the idea that outfielders convert the temporal problem to a spatial one by selecting a running path that maintains a linear optical trajectory (LOT) for the ball.
Journal ArticleDOI
How Dogs Navigate to Catch Frisbees
TL;DR: Using micro-video cameras attached to the heads of 2 dogs, it is confirmed that dogs use the same viewer-based navigational heuristics previously found with baseball players, and a common interception strategy that extends both across species and to complex target trajectories.
Journal ArticleDOI
Baseball outfielders maintain a linear optical trajectory when tracking uncatchable fly balls.
TL;DR: Findings support the LOT strategy as primary when pursuing balls headed to the side, whether catchable or not.
Journal ArticleDOI
Toward a unified fielder theory: what we do not yet know about how people run to catch a ball
TL;DR: A range of ball trajectories for which departures of the optic trajectory from linearity do not predict which direction people will run, and the direction they choose does not correct these departures.
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How baseball outfielders determine where to run to catch fly balls
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