A visual search (VS) non-trained transfer test was also administered pre-SVT and after 10 days. Post-training assessments were administered immediately, 10 min and 10 days after SVT each consisting of six trials (120 lights). Four × six trials (480 lights) were then completed in the training phase with the CG continuing to train with unimpaired vision, whilst the SG wore Nike Vapor Strobe ® (controlled rate of 100 ms visible to 150 ms opaque). One week following pre-testing on the Sport Vision Trainer™ (4 × 6 trials), a pre-training baseline assessment of 1 × 6 trials was conducted to measure their abilities to complete the EHC task. The method employed a Sport Vision Trainer™ 80 sensor pad to measure the mean speed of reaction time of participants extinguishing randomly illuminated lights on an electronic board. Sixty-two male participants were randomly assigned to either a strobe group (SG n = 31), or control group (CG n = 31). The aim of this study was to investigate whether an SVT training period could improve the eye–hand coordination (EHC) performance on a practiced task for a group of sports participants. Stroboscopic visual training (SVT) has been shown to improve cognitive skills and perceptual performance by carrying out events under situations of intermittent vision.
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