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software (e.g., LLM agents for finding and fixing bugs) Static and dynamic program analysis (e.g., to infer specifications) Test input generation (e.g., to compare the behavior of old and new code via
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automated driving systems. Conception, design, and implementation of software architectures and prototypes in interdisciplinary projects. Development, testing, and evaluation of methods and software systems
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-dynamical or environmental systems Research on quantum and hybrid quantum–classical algorithms for solving partial differential equations Implementation, testing, and benchmarking of computational methods
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: Fail safe, Distributed Digital Twin for Innovative Air Mobility (IAM) Operations Supervisor: Prof. Dr. Uwe Assmann, Chair of Software Technology and co-supervised by at least one
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, Life Cycle Sustainability Assessment) and software tools (such as openLCA, GaBi, SimaPro), as well as statistical and qualitative research methods; experience in working with standard business management
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and pursues the goal of contributing to the development of a sustainable society in the digital age through research, teaching and administration. The Institute for Software and Systems Engineering
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-Sailor 3. Prototypes shall be built and thoroughly tested to match performance and lifetime requirements. In the end, support shall be given to support payload integration for the ESTCube-LuNa mission
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for space applications at TUD. The electrical interface shall be developed jointly with E-Sailor 5. After a careful design selection, prototypes shall be build and tested for performance and lifetime
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common CAD and FEM software tools are beneficial We offer: a wide range of opportunities for individual professional development through central training courses provided by the research network or TU
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the potential of these concepts. Once a promising concept has been identified, the DC shall try to build (sub-scale) and test models and prototypes that allow an eventual characterization and to validate at least