Abstract
Because of the challenges associated with measuring human perception and strategy, the process of human performance from perception to motion to results is not fully understood. Therefore, this study clarifies the phase at which errors occur and how differences in skill level manifest in a motor task requiring an accurate environmental perception and fine movement control. We assigned a golf putting task and comprehensively examined various errors committed in five phases of execution. Twelve tour professionals and twelve intermediate amateur golfers performed the putting task on two surface conditions: flat and a 0.4-degree incline. The participants were instructed to describe the topographical characteristics of the green before starting the trials on each surface (environmental perception phase). Before each attempt, the participants used the reflective markers to indicate their aim point from which the ball would be launched (decision-making phase). We measured the clubface angle and impact velocity to highlight the pre-motion and motion errors (pre-motion and motion phase). In addition, mistakes in the final ball position were analyzed as result errors (post-performance phase). Our results showed that more than half of the amateurs committed visual–somatosensory errors in the perception phase. Moreover, their aiming angles in the decision-making phase differed significantly from the professionals, with no significant differences between slope conditions. In addition, alignment errors, as reported in previous studies, occurred in the pre-motion phase regardless of skill level (i.e., increased in the 0.4-degree condition). In the motion phase, the intermediate-level amateurs could not adjust their clubhead velocity control to the appropriate level, and the clubhead velocity and clubface angle control were less reproducible than those of the professionals. To understand the amateur result errors in those who misperceived the slopes, we checked the individual results focusing on the final ball position. We found that most of these participants had poor performance, especially in the 0.4-degree condition. Our results suggest that the amateurs’ pre-motion and strategy errors depended on their visual–somatosensory errors.
Highlights
Skill science research revealed that individuals with excellent skills have higher performance accuracy and reproducibility
The residual error of the flat condition revealed that more amateurs answered, “The left side is high,” and more professionals answered, “flat.” the residual error of the 0.4-degree condition showed that more professionals answered, “The left side is high,” and more amateurs answered “flat,” This means that more professionals could perceive the slopes more accurately than amateurs
As for pre-motion errors, clubface address angle analysis revealed that the face angle at the address of the professionals depends on the slope conditions
Summary
Skill science research revealed that individuals with excellent skills have higher performance accuracy and reproducibility. They have an abundance of task-specific knowledge and a cognitive function that underpins their skillful movements, enabling them to rank tactics and select them quickly (e.g., de Groot, 1965; Williams et al, 1999, 2003; Lex et al, 2015). Scholars have yet to clarify whether unskilled people cannot perceive their environment well, whether they cannot choose good strategies, or whether they do not merely acquire appropriate movements to play well. To advance the motor skills of unskilled individuals, researchers and coaches need to understand the bottlenecks impeding their progress. We believe it is critical to comprehensively investigate the errors that occur in each phase of one skill
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