In a recent study published in Cell,Marin Vargas and Bisi et al.1 present an innovative approach to unravel the computational principles underlying proprioceptive processing in non-human primates.Their findings showca...In a recent study published in Cell,Marin Vargas and Bisi et al.1 present an innovative approach to unravel the computational principles underlying proprioceptive processing in non-human primates.Their findings showcase the utility of task-driven modeling in advancing neuroscience and offer translational potential by providing seminal insights into the goals and mechanisms by which the brain encodes body position and movements.展开更多
基金This work was supported by the German Academic Scholarship Foundation(doctoral scholarship)to L.v.D.The Adaptive Mind'funded by the Excellence Program of the Hessian Ministry of Higher Education,Research,Science and the Arts to F.B.and K.D.+1 种基金the Deutsche Forschungsgemeinschaft(DFG,German Research Foundation)-project number 222641018-SFB/TRR 135 to F.B.and K.D.the European Union(ERC,DEEPFUNC,ERC-2023-STG-101117441)to K.D.
文摘In a recent study published in Cell,Marin Vargas and Bisi et al.1 present an innovative approach to unravel the computational principles underlying proprioceptive processing in non-human primates.Their findings showcase the utility of task-driven modeling in advancing neuroscience and offer translational potential by providing seminal insights into the goals and mechanisms by which the brain encodes body position and movements.
