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equitable urban energy systems. Our work combines technology and policy with systems thinking and practical implementation, always grounded in real-world urban challenges. This PhD position is offered in
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Would you like to perform cutting-edge neuroimaging research to improve rehabilitation and quality of life for people with visual impairment? We seek a talented PhD student to develop and validate
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Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig | Leipzig, Sachsen | Germany | 24 days ago
Planck Society and is dedicated to the study of human cognition, functional brain processes and neuroanatomy. The Neural Computation Group led by NCG, PI Dr. Andrej Bicanski offers: PhD position or a
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developing neurotechnologies for treating brain disorders? In this PhD you will work with datasets of neuronal activity in animals and humans. You will apply computational approaches to describe spatial and
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Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig | Leipzig, Sachsen | Germany | 14 days ago
Job Code: PhD 10/25 Job Offer from September 19, 2025 The Max Planck Institute for Human Cognitive and Brain Sciences (MPI CBS) in Leipzig, Germany, is an internationally recognized research
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Research Framework Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Would you like to perform cutting-edge neuroimaging
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./week) TV-L E 13for the DFG Project " The neural dynamics of causal evidence accumulation in multisenso-ry perception" as of 1.1.2026 or as soon as possible, limited for 3 years. The project investigates
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EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Work Activities We are seeking a motivated PhD- student to join our teams working on bistable
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engineering, computational neuroscience, artificial neural networks and bio-inspired robotics: "Rhythmic-reactive regulation for robotic locomotion" (Supervisor: Prof Fulvio Forni) will apply techniques from
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to develop novel, bio-inspired neural networks that flexibly and robustly control locomotion in multi-limbed robots. "Self-organised clocks for reliable spiking computation" (Supervisor: Prof Timothy O'Leary