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, you will look into the brain's computational primitives at an abstraction level that is higher than individual neurons and synapses, one prominent example of which are the cortical minicolumns [2,3
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Chemical/Environmental Engineering, Microbiology or Bioinformatics Demonstrable background and strong interest in biological processes and biotechnologies Independent, self-motivated, curiosity-driven mind
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’ behavior and environment, like in a sort of “chess game”. Hence, the intended scientific breakthrough is to formulate, implement, and validate the ‘distributed radar brain’ needed to establish and support
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’ behavior and environment, like in a sort of “chess game”. Hence, the intended scientific breakthrough is to formulate, implement, and validate the ‘distributed radar brain’ needed to establish and support
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complex fiber networks in the brain and other biological tissues. The position is in the group of Dr. Miriam Menzel, at the Department of Imaging Physics. The group works on scattered light microscopy
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working in a team with close synergy between experiments and simulations. An open mind to collaborate with colleagues, project partners, and industry. Additional requirements for each this PhD position in
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in power grids, to the spread of news, rumour or emotions in a social network, to transactions in banking networks and to the processing of functions and movements in the human brain. An epidemic
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on relevance. To collaborate, humans and machines need to align their different memories.In this project we build models, partially inspired on the human capacity for Theory of Mind, that enable such alignment
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highly reliable, efficient, stable, clean, affordable, and safe way. You will be jointly supervised by Dr. Alex Stefanov (Assistant Professor, daily supervisor) and Prof. Peter Palensky (head of IEPG group
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disease that manifests as a brain-wide phenomenon. The computing engine will be based on computation-in-memory architecture (going beyond traditional Von-Neumann) making use of memristor devices (being very