Recent studies on visual working memory (VWM) have shown that visual information can be stored in VWM as continuous (e.g., a specific shade of red) as well as categorical representations (e.g., the general category red). It has been widely assumed, yet never directly tested, that continuous representations require more VWM mental effort than categorical representations; given limited VWM capacity, this would mean that fewer continuous, as compared to categorical, representations can be maintained simultaneously. We tested this assumption by measuring pupil size, as a proxy for mental effort, in a delayed estimation task. Participants memorized one to four ambiguous (boundaries between adjacent color categories) or prototypical colors to enc...
The content of visual working memory influences the access to visual awareness. Thus far, research h...
Visual working memory (VWM) refers to the limited capacity storage of visual information used for be...
Categorization with basic color terms is an intuitive and universal aspect of color perception. Yet ...
Recent studies on visual working memory (VWM) have shown that visual information can be stored in VW...
Visual information can be stored as continuous as well as categorical representations in visual work...
Visual information can be stored as continuous as well as categorical representations in visual work...
Recent studies have found that visual working memory (VWM) for color shows a categorical bias: obser...
Recent studies have found that visual working memory (VWM) for color shows a categorical bias: obser...
Describing our visual experiences improves their retention in visual working memory, yielding a labe...
An ongoing debate exists on how visual working memory (VWM) utilizes its limited resources. This stu...
How do perception and language interact to form the representations that guide our thoughts and acti...
Visual working memory (VWM) is typically found to be severely limited in capacity, but this limitati...
Consistent, robust boosts to visual working memory capacity are observed when colour–location arrays...
The content of visual working memory influences the access to visual awareness. Thus far, research h...
Visual working memory (VWM) refers to the limited capacity storage of visual information used for be...
Categorization with basic color terms is an intuitive and universal aspect of color perception. Yet ...
Recent studies on visual working memory (VWM) have shown that visual information can be stored in VW...
Visual information can be stored as continuous as well as categorical representations in visual work...
Visual information can be stored as continuous as well as categorical representations in visual work...
Recent studies have found that visual working memory (VWM) for color shows a categorical bias: obser...
Recent studies have found that visual working memory (VWM) for color shows a categorical bias: obser...
Describing our visual experiences improves their retention in visual working memory, yielding a labe...
An ongoing debate exists on how visual working memory (VWM) utilizes its limited resources. This stu...
How do perception and language interact to form the representations that guide our thoughts and acti...
Visual working memory (VWM) is typically found to be severely limited in capacity, but this limitati...
Consistent, robust boosts to visual working memory capacity are observed when colour–location arrays...
The content of visual working memory influences the access to visual awareness. Thus far, research h...
Visual working memory (VWM) refers to the limited capacity storage of visual information used for be...
Categorization with basic color terms is an intuitive and universal aspect of color perception. Yet ...