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Field
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simulation to your finger on the pulse. Become a key player in various sub-teams and support us with exciting challenges, such as testing hybrid OML algorithms. Work hand in hand with our experts to drive
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of channel measurementsHardware implementation and testing in the mobile communications sector (5G/6G) Carrying out simulations in the area of mobile communications (5G/6G) Expansion of open source 5G/6G
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to ensure collision-free navigation around nearby obstacles. For your implementation with ROS in C++, you will have access to a simulation environment, as well as our outdoor robot CURTmini for regular
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. Research will involve the development of nonlinear ocean models, numerical simulations, and data-driven assessment and description of oceanic phenomena. Applicants are asked to demonstrate their ability
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strategies. Your tasks in detail: Enhance existing Bayesian state estimation with reliability margins using both simulated and, if necessary, real-world grid data. Develop Use-Case-Specific Reinforcement
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. Your simulations will push the most recent theoretical ideas to their limit by including the constraints faced in the laboratory. You will develop workarounds by exploiting new capabilities in state
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states Investigation of non-equilibrium dynamics relating to quantum simulation or pump-probe experiments Machine learning for feedback control of monitored quantum systems Participation in international
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until 31.12.2027. The scientific work is carried out in the field of hydrogen technology. Responsibilities: ? Experimental and simulative development, production and system integration of in-novative
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, developed at Hereon and ULiège (biogeochemistry) to setup cross-sectorial scenario simulations including climate scenarios and multiuse scenarios. A special endeavor is to forward the parametrization
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control, data analysis, and simulations Theoretical and experimental knowledge of optical systems (e.g. optical components, optical propagation, single-photon processing, …), communication systems and high