Tennis expert-novice difference in motion-in-depth perception is associated with early inhibition of invalid attention

Perception of motion-in-depth is essential to guide and modify the hitting action in interceptive-dominated sports (e.g., tennis). The purpose of this research was to investigate the effect of tennis expertise on motion-in-depth perception at different cognition processes by two event-related potential (ERP) studies. Specifically, the study explored differences in behavior and electroencephalogram (EEG) characteristics between tennis experts and novices under two different task conditions. Seventeen skilled tennis players (average professional experience: 10.76 ± 2.56 years) and 17 age-matched novices participated in two experiments. Cortical activity (P1, N1, P2, and the later component) and task performance (reaction time, accuracy rate, and error value) were recorded when participants completed a direction-identifying task (Experiment 1) and a prediction-motion task (Experiment 2) while perceiving motion-in-depth. Results demonstrated that P1 latency in the expert group was significantly shorter than the novice group in experiment 1; and in experiment 2, the expert group showed shorter P1 latency than the novice group under the TTC1 (actual time-to-collision is 400 ms) condition. The results indicate that the effect of tennis expertise on motion-in-depth perception was primarily manifested as early visual attentional investment in the features of objects. Experts have the rapid inbibition of invalid attention.