Over the last several years, the study of working memory (WM) for simple visual features (e.g., colors, orientations) has been dominated by perspectives that assume items in WM are stored independently of one another. Evidence has revealed, however, systematic biases in WM recall which suggest that items in WM interact during active maintenance. In the present study, we report two experiments that replicate a repulsion bias between metrically similar colors during active storage in WM. We also observed that metrically similar colors were stored with lower resolution than a unique color held actively in mind at the same time. To account for these effects, we report quantitative simulations of two novel neurodynamical models of WM. In both mo...
How does executive attentional control contribute to memory for sequences of visual objects, and wha...
The ability to accurately retain the binding between the features of different objects is a critical...
In order to navigate the complex visual world around us, our visual memory systems must constantly m...
When holding multiple items in visual working memory, representations of individual items are often ...
The action perspective on working memory suggests that memory representations are coded according to...
Recent neurophysiological and imaging studies have investigated how neural representations underlyin...
How does visual working memory (WM) store the binding between different features of a visual object ...
Although our experience might convince us that our memory is limitless, researches showed that we co...
Item does not contain fulltextMaintaining information in visual working memory (VWM) biases attentio...
Recent neurophysiological and imaging studies have investigated how neural representations underlyin...
Attention can be allocated in working memory (WM) to select and privilege relevant content. It is un...
Studies examining the relationship between spatial attention and spatial working memory (SWM) have s...
PURPOSE: The manipulation of visual working memory (VWM) has received increasing interest, by focu...
AbstractWe explored the interaction between the processing of a low-level visual feature such as ori...
Maintaining information in visual working memory (VWM) biases attentional selection of concurrent vi...
How does executive attentional control contribute to memory for sequences of visual objects, and wha...
The ability to accurately retain the binding between the features of different objects is a critical...
In order to navigate the complex visual world around us, our visual memory systems must constantly m...
When holding multiple items in visual working memory, representations of individual items are often ...
The action perspective on working memory suggests that memory representations are coded according to...
Recent neurophysiological and imaging studies have investigated how neural representations underlyin...
How does visual working memory (WM) store the binding between different features of a visual object ...
Although our experience might convince us that our memory is limitless, researches showed that we co...
Item does not contain fulltextMaintaining information in visual working memory (VWM) biases attentio...
Recent neurophysiological and imaging studies have investigated how neural representations underlyin...
Attention can be allocated in working memory (WM) to select and privilege relevant content. It is un...
Studies examining the relationship between spatial attention and spatial working memory (SWM) have s...
PURPOSE: The manipulation of visual working memory (VWM) has received increasing interest, by focu...
AbstractWe explored the interaction between the processing of a low-level visual feature such as ori...
Maintaining information in visual working memory (VWM) biases attentional selection of concurrent vi...
How does executive attentional control contribute to memory for sequences of visual objects, and wha...
The ability to accurately retain the binding between the features of different objects is a critical...
In order to navigate the complex visual world around us, our visual memory systems must constantly m...