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Field
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: This PhD project will develop model- and data-driven hybrid machine learning material models that capture the complex, nonlinear, path- and history-dependent behaviour of materials. The goal is to create
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collaboration among children with diverse cognitive and sensory profiles. The project’s main objective is not the development of a single intervention, but the design and validation of new methodologies
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Are you fascinated by electromagnetic modeling and numerical problem solving? Do you want to contribute to the development of state-of-the-art metrology for integrated-circuit production
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to critical metal exploration in magmatic settings. Training A personalised training programme will be set up reflecting your training needs and career objectives. About 20% of your time will be dedicated
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well as their cleanroom fabrication by silicon micromachining will be investigated. The main challenges are (1) the design and modelling of new sensor topologies, (2) development of the MEMS fabrication processes, (3
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also offer to our students. Last but certainly not least, we provide the space and facilities for your personal and professional development. We facilitate this by offering a wide range of training
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against the highest international standards. It also creates an exciting environment of continuous improvement. FEB's programmes, academic staff and research do well on various excellence ranking lists
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generations. We develop and share knowledge for the requirements of people and our society. This is how we contribute to solving complex social issues and help society move forward. We educate our 19,500
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building to examine the nature, organisation and effectiveness of activism in the creative industries. The project will develop both methodological and theoretical contributions to current sociological
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function well in warfighting and other scenarios. Since the available resources are limited, the key challenge is: How to develop a robust military supply logistics network in an adversarial / warfighting