Abstract
The ability to simultaneously attend to multiple objects declines with increases in the visual angle separating distant objects. We explored whether these laboratory-measured limits on visual attentional spread generalize to a real life context: offside calls by soccer assistant referees. We coded all offside calls from a full year of first division German soccer matches. By determining the x-y coordinates of the relevant players and assistant referee on the soccer field we were able to calculate how far assistant referees had to spread their visual attention to perform well. Counterintuitively, assistant referees made fewer errors when they were farther away from the action due to an advantageous (smaller) visual angle on the game action. The pattern held even when we accounted for individual differences in a laboratory-based attentional spread measure of ten of the assistant referees. Our finding that errors are linked to smaller visual angles may explain the complaints of fans in some situations: Those seated directly behind the assistant referee, further from the players, might actually have it easier to make the right call because the relevant players would form a smaller visual angle.
Highlights
Referees often take the blame for mistaken calls, but in some cases they may be at an unfair disadvantage
Given that assistant referees may differ in their bias to make calls and that those biases might vary across games, treating each call as independent of other calls might not be justified
To explore whether the pattern of results presented in Study 1 holds true even when accounting for individual differences in limitations of attentional spread, in Study 2, we recoded the visual angle associated with each offside call for each of the ten assistant referees who participated in the laboratory-based attentional spread task by subtracting the estimate of their measured visual angle
Summary
The ability to simultaneously attend to multiple objects declines with increases in the visual angle separating distant objects. We explored whether these laboratory-measured limits on visual attentional spread generalize to a real life context: offside calls by soccer assistant referees. By determining the x-y coordinates of the relevant players and assistant referee on the soccer field we were able to calculate how far assistant referees had to spread their visual attention to perform well. Assistant referees made fewer errors when they were farther away from the action due to an advantageous (smaller) visual angle on the game action.
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