Visual working memory precision is under voluntary control

The ability to store information in visual working memory is essential to plan and successfully execute memory-guided actions in natural human behavior. Typically, visual working memory research investigates how storing affects subsequent action. In doing so, however, the importance of how the action affects prior storing remains underappreciated. Therefore, we here question how the required precision for an action to succeed, affects how relevant visual information is encoded, maintained and finally acted on. To this end, we had participant memorize 1, 2 or 4 colors for delayed continuous report. Crucially, we manipulated how (im)precise the report was allowed to still be marked correct. Behavioral results showed that for actions with higher required precision, reports became more precise, but only when one or two colors were memorized. Also, reports became slower with higher required precision, regardless of the number of colors. By leveraging pupillometry, we further showed that with higher required precision, 1) colors were encoded deeper (since pupils constricted more during presentation), and 2) more effort was exerted to maintain the colors (since pupils dilated more during retention). Moreover, we found that participants kept exerting more effort to be precise (with increasing precision requirements), even when additional effort did not result in better performance anymore. Our findings demonstrate that humans consider their intended actions when encoding and maintaining information in visual working memory. Our results highlight the essential role of action in understanding how visual information is stored during natural goal-directed behavior. 242 words