Neural basis of the two-phase resource allocation model of visual working memory and its application (NERAMWMIA)
Main funder
Funder's project number: 333649
Funds granted by main funder (€)
- 228 457,00
Funding program
Project timetable
Project start date: 01/09/2020
Project end date: 31/08/2023
Summary
Recently, we proposed a working memory resource allocation model to solve the contradiction of previous studies. However, the role of attention mechanism in the model is still unclear. The aim of the project is to provide evidence for the model at the neural level, and determine the attention mechanism that plays an important role in the resource allocation of working memory. A cognitive training paradigm will be designed for the attention mechanism, and the effect of the paradigm on working memory will be examined. The present project will provide a new theoretical basis for the working memory study. More importantly, the project will open a new door for cognitive training, which can be utilized in the future to help individuals with low memory capacity.
Principal Investigator
Primary responsible unit
Related publications and other outputs
- Alterations in working memory maintenance of fearful face distractors in depressed participants : An ERP study (2023) Ye, Chaoxiong; et al.; A1; OA
- EEG-fMRI fusion analysis of attention and visual working memory (2023) Salmela, Viljami; et al.; D3; OA
- Sad and fearful face distractors do not consume working memory resources in depressed adults (2023) Ye, Chaoxiong; et al.; O1; OA
- Encoding specificity instead of online integration of real-world spatial regularities for objects in working memory (2022) Liu, Xinyang; et al.; A1; OA
- Encoding-specificity instead of online integration of real-world spatial regularities for objects in VWM (2022) Liu, Ruyi; et al.; O1; OA
- Perceptual boost of stimulus memorability on visual short-term memory formation (2022) Ye, Chaoxiong; et al.; O1; OA
- Sad and fearful face distractors do not consume working memory resources in depressed adults (2022) Xu, Qianru; et al.; O1; OA
- The effect of perceptual interference on prioritization of feature dimensions in visual working memory (2022) Guo, Lijing; et al.; O1; OA
- The impact of retro-cue validity on working memory representation : Evidence from electroencephalograms (2022) Fu, Xueying; et al.; A1; OA
- The passive state : A protective mechanism for information in working memory tasks (2022) Zhang, Jiafeng; et al.; A1; OA
