Goal-directed behavior depends on the ability to flexibly change mental representations in working memory (WM). WM has not only storage but also control component. While largely neglected, these control components are essential for goal-directed behaviors as they transform visual representations into codes that can facilitate or ‘work’ to support behavior. Here, we asked whether and how do task demands change WM representations in the brain?
Continue readingThe ability to execute precise movements depends on transforming visuospatial information about the goal of the movement into a movement plan. In the nonhuman primate, discrete parts of premotor frontal and parietal cortex appear to code for movements of different effectors. However, the evidence regarding homologous effector selectivity within the human brain remains inconclusive. Here, we aimed to ask how human brains code spatial information during the motor planning process for eye and hand movements and test whether spatial-specific planning is effector-dependent.
Continue readingDecoding working memory (WM) contents from visual cortex has been widely found in human neuroimaging studies, demonstrating the idea that visual WM storage uses similar encoding mechanism as visual perception in the visual cortex. However, researchers have found evidence both support and against this hypothesis. Most of these studies, no matter for or against the hypothesis, relied on decoding the orientation of gratings with fMRI voxel responses.
Continue readingJournal clubs of working memory. Papers are arranged alphabetically by author’s last name.
Continue readingThis is a resource pool containing information about scientifc writing, mostly academic writing.
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