As soccer is a sport of almost constant motion, for the players and the ball, having a well developed ability to maintain visual clarity when players and/or ball are in motion (dynamic acuity) is just as significant as good static acuity (smallest detail that can be distinguished in a stationary target/setting, like the goal). Our Athlete EYEQ Neurocognitive Sports Vision Training program can help you better understand and meet the visual demands most often experienced while playing basketball.
✅ Improved consistency in performance
✅ Improved performance under pressure in stressful situations
✅ Improved coordination and balance
✅ Improved peripheral vision awarenss
✅ Improved concentration and visual memory
✅ Improved overall decision-making
✅ Improved shooting and pass accuracy
Playing one-and-a half hours of soccer can be very fatiguing, so maintaining a high level of focus throughout the game can be challenging. However, if all players can develop the skill to keep concentration throughout the game and still be able to exploit an opponent’s errors on the field, they might find that this is the skill that determines the winning or losing of a championship.
Eye tracking ability is important in soccer. Quick, accurate saccades (or eye movements) are needed to rapidly survey the changing locations and movements of the other 21 players, and the ball on the pitch. The player must also use saccades to monitor the location of the various boundary lines and goals. Studies have shown that if an athlete’s head has to move to aid in eye tracking, his/her performance is not only less efficient, but balance is thrown off too.
Focusing flexibility is also important because the ball and other players move so quickly. The player has to be able to shift focus from near-to-far, or to intermediate targets rapidly throughout the game, while general body stamina is running down due to heavy exertion.
Timing, for receiving passes and jumping up to head the ball at just the right moment, are skills related to good depth perception. The player must be able to judge the speed and spin on the ball, as well as how quickly other players are moving toward or away from him/her. Also, knowing where you are, relative to other objects, is very important in soccer because traffic patterns on the field can become very congested. No one stays in the same place very long. The ball and the players are all in constant, relative motion. The goals are stationary, but most shots are taken at the goal as the player is moving laterally, vertically, or transversely.
Soccer is a very fatiguing sport which requires excellent conditioning. Physical fatigue can greatly affect concentration, visual reaction time, and eye-hand coordination. Eye fatigue can also affect performance levels in much the same way. When the muscles in our eyes feel tired or strained, we feel the fatigue all over. Just like a weightlifting routine is used to increase physical endurance, visual exercises can be used to strengthen the eye muscles and thereby reduce fatigue.
Most soccer players depend more on eye-foot and eye-body coordination, than on eye-hand; except the goaltenders, who are permitted to use their hands to catch, throw and block shots taken on their goal. The eyes lead and the body follows, so the visual system guides the motor system. For the players, exact eye-foot coordination is essential to hit a solid volley or half-volley and to ensure that the ball goes in the right direction and is perfectly on target.
Fixation is a term used to describe what we do when our eyes stop their normal movements to gather more detailed information. Fixations in soccer are seldom in one place very long. They are actually tied in with saccadic eye movement ability. The player’s eyes are in constant motion, with quick fixation shifts from the ball, to the other players (his/her team and opponents), to the goal, to the sideline boundaries, etc.
During a free kick, corner kick, penalty kick, etc. the player has the time and space to fixate on a precise portion of the soccer ball (e.g. one of the dark or light hexagonal panels) for more accurate kicking. Perhaps, even some quick visualization can be done in these situations. Fixation would then shift from the target on the ball panel to where the player wants that kick to land on the pitch.
When dribbling the ball, the player must be aware of where he/she is going; where the defensive tacklers are coming from; and also, be peripherally aware of the soccer ball his/her foot is controlling. Defensively, he/she must stay between the opponent and the goal. Therefore, he/she must be centrally aware of the offensive player with the ball, if it’s his/her responsibility to mark (guard) the opponent. Peripherally, he/she must be aware of the goal and potential passing lanes the offense might use. Also, if marking a player away from the ball, you must be peripherally aware of the ball and the goal.
This is not only a very essential skill for superior performance in a game like soccer, but it also helps avoid collision and injury. Each player must be aware of (1) the location of the ball, (2) where he/she should be in relation to the action going on at any given time, (3) where his/her opponents and his teammates are if he is in control of the ball and (4) where he is on the playing field in relationship to the numerous boundaries.
Opportunities to make a proper pass, kick the ball between an opponent’s legs, or tackle an opponent and steal the ball without fouling, only present themselves for fractions of seconds. Also, the soccer ball itself can move at high rates of speed. Once the ball starts ricocheting off players who are fighting for its control, reaction speed can be the difference between winning and losing the battle. The player must be able to absorb a great deal of information, with just a quick scan of the field in order to make his /her decision for play development – i.e. – whether to pass the ball, and where and how to make his next move.