Abstract
Decisions about where to fixate are highly variable and often inefficient. In the current study, we investigated whether such decisions would improve with increased motivation. Participants had to detect a discrimination target, which would appear in one of two boxes, but only after they chose a location to fixate. The distance between boxes determines which location to fixate to maximise the probability of being able to see the target: participants should fixate between the two boxes when they are close together, and on one of the two boxes when they are far apart. We “gamified” this task, giving participants easy-to-track rewards that were contingent on discrimination accuracy. Their decisions and performance were compared to previous results that were gathered in the absence of this additional motivation. We used a Bayesian beta regression model to estimate the size of the effect and associated variance. The results demonstrate that discrimination accuracy does indeed improve in the presence of performance-related rewards. However, there was no difference in eye movement strategy between the two groups, suggesting this improvement in accuracy was not due to the participants making more optimal eye movement decisions. Instead, the motivation encouraged participants to expend more effort on other aspects of the task, such as paying more attention to the boxes and making fewer response errors.
Highlights
We use eye movements to solve many problems, such as avoiding obstacles, or to find an item of importance
This is split to show the different conditions under which the participants completed the task, with one panel for the data of the Control group, one panel for the data of the Motivated participants, and one panel for the participants who were guided to make optimal decisions
The Control group and the Motivated group differ dramatically from the Optimal group, who were instructed where to fixate on each trial
Summary
We use eye movements to solve many problems, such as avoiding obstacles, or to find an item of importance. Humans appear able to use eye movements to direct the visual system in an optimal manner [1]. People do not make eye movements that are consistent with an optimal strategy [2,3]. Najemnik and Geisler [1] derived an “ideal observer” model of eye movements in visual search, which minimises the number of fixations needed to find a target by deploying fixations that reduce overall uncertainty of information in the search space. The model accounts for fixation history, as well as differences in acuity across the retina, to select fixations that provide the most new information
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
