Shih-Kuei Huang scite author profile

Journal of Experimental Psychology: Human Perception and Perfor

Lee

et al. 2017

To gain deeper insight into respective contributions of perceptual and motor experience of an observed action to anticipating its result, we examined the perceptual anticipation of players with different action roles in striking sports. Baseball pitchers and batters at both advanced and intermediate levels were asked to make a decision about whether to swing the bat when viewing a series of videos showing incomplete sequences of a model pitcher throwing a strike or a ball. The results revealed that first 100 ms of ball flight could discriminate advanced batters from intermediate pitchers and batters (with no difference between intermediate pitchers and batters). Particularly, advanced batters (perceptual experts with regard to pitching action) were statistically more accurate and less uncertain in making decisions than were intermediate players, whereas advanced pitchers (motor experts) only showed this tendency without reaching a statistically significant level. Moreover, advanced batters demonstrated greater perceptual sensitivity in discriminating when to swing at strikes over balls than all other players. Our findings suggested that when players were above intermediate level, perceptual experience of an observed action facilitated the perceptual anticipation to a greater extent than motor experience of producing it. (PsycINFO Database Record

Strike or ball? Batters know it better: an fMRI study of action anticipation in baseball players

Chang

Huang

2022

To assess whether the brain processes of action anticipation are modulated differently by perceptual and motor experiences, baseball batters, pitchers, and non-players were asked to predict the fate of pitching actions (strike or ball) while undergoing functional magnetic resonance imaging. Results showed both batters (perceptual experts of pitching action) and pitchers (motor experts) were more accurate than non-players. Furthermore, batters demonstrated higher perceptual sensitivity in discriminating strikes than non-players. All groups engaged the action observation network, putamen, and cerebellum during anticipation, while pitchers showed higher activity than non-players in the left premotor cortex, which has been implicated in the internal simulation of observed action. Only batters exhibited differences in strike versus ball pitches in their left ventral extrastriate cortex, which might be associated with the processing of relevant visual information conveyed by the observed pitcher’s movement kinematics and pitch trajectory. Moreover, all groups showed higher activity selectively in the striatum, thalamus, sensorimotor cortices, and cerebellum during correct predictions than during incorrect ones, with most widespread activation in batters, reinforcing the greater involvement of the sensorimotor system in perceptual experience. Our findings demonstrate that perceptual experience might enhance action anticipation ability to a greater extent than motor experience, with overlapping but specific neural underpinnings.

Nonlinear engagement of action observation network underlying action anticipation in players with different levels of expertise

Chang

Huang

et al. 2020

Human Brain Mapping

The goal of this study was to reconcile inconsistency of neural engagement underlying action anticipation between experts and nonexperts, as well as between correct and incorrect anticipations. Therefore, we asked novice, intermediate, and skilled baseball batters (N, IB, and SB) to anticipate their swing decisions in response to pitching videos of a strike or ball, using functional magnetic resonance imaging. Behavioral results confirmed the effect of expertise that is generally shown in a linear fashion. Imaging results instead revealed a nonlinear relationship between expertise level and the evoked response amplitude of nodes within the action observation network. The relationship was best captured by an inverted U-shaped quadratic response profile across the three groups such that IB exhibited higher activation than did both SB and N. These empirical findings extend the framework of predictive coding as well as of neural efficiency in anticipating the action of others, and they might be associated with the underlying process to interpret the goal of the observed action and prepare one's own response. Furthermore, the right anterior cerebellum showed different levels of activation for correct and incorrect anticipations in all groups, adding novel evidence of its subtle involvement in anticipation processes irrespective of expertise status.

Neural and cognitive underpinnings of ball/strike judgments of baseball umpires: An fMRI study

Huang

2023

Preprint

We used functional magnetic resonance imaging to study the pitch-calling behavior of baseball umpires with varying experience, with a particular interest in understanding the pitcher handedness effect. Expert and intermediate umpires were recruited and asked to make ball/strike calls on videotaped pitches of left- and right-handed pitchers and rate their certainty for the call while undergoing scanning. Behavioral results replicated previous findings that expert umpires were more certain but not more accurate or quicker than intermediate umpires, suggesting that umpires learn to project confidence to maintain control of the game as sports officials. Both expert and intermediate umpires were less accurate when judging the left-handed pitcher than the right-handed pitcher (particularly with longer reaction times and less uncertainty for ball pitches), possibly due to their lower familiarity with rarely encountered left-handed pitchers. The umpires greatly engaged the action observation network, cerebellum, and caudate when making correct calls, and these activations were comparatively weaker when calling left-handed pitches, implying their less effective perceptual processing of the visual information details of the left-handed pitcher. The lower activity in the right premotor cortex for ball pitches from the left-handed pitcher further implies the umpires’ poorer predictive processing of the pitching action and baseball trajectory of the left-handed pitcher than the right-handed one, particularly for ball pitches. Our findings shed light on the influence of pitcher handedness on the pitch-calling behavior of baseball umpires and extend the current understanding of the perceptual and decision-making behavior of baseball umpires (sports officials).

The effect of the insole with foot arch and heel cup support on baseball pitching

et al. 2015