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. Methods to be used are effective and tight-binding models, linear and nonlinear transport theories (kinetic Boltzmann theory, time evolution of the density matrix). The project is part of the Collaborative
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-Performance Cutting« department develops technologies and application-oriented solutions for machining along the entire process chain - from process design to real-time data acquisition for generating a
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dynamics and system transformation in an interdisciplinary manner and from a holistic perspective. The institute offers unparalleled opportunities to apply and develop new approaches in innovation research
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The Fraunhofer Institute for Electronic Nano Systems ENAS is leading in the development of smart systems that combine electronic components, micro and nano sensors and actuators with communication
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to addressing our fundamental biomedical challenges, where our collective goal is to uncover molecular and cellular processes that drive disease and to develop innovative strategies for early and precise
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regularly mentor committed talents who want to conduct cutting-edge research with us. At our institute, our employees delve into exciting projects and develop individual products and services for our clients
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the Fraunhofer Institute for Telecommunications, Heinrich Hertz Institute (HHI), the PONGO project is investigating various aspects of such future systems. The focus is on developing cost-efficient and at the same
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targeted obfuscations. Objective: The objective of this work is to investigate various attacks on style concealment and to develop an AV system that is as robust as possible against them. To achieve this, a
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and evaluation of innovative data-driven and Machine Learning-based systems to integrate more renewable energy into our energy systems and make energy use more efficient. We develop novel optimization
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is a major hub of research activity, including the DYNAVERSE excellence. The research at MPIfR covers most astrophysical applications of radio astronomy. The Star Formation and Galaxy Evolution