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outcomes of this project include innovative methods for robot learning to improve shared movement quality. The PhD candidate will research movement and choreographic structures applied to human-robot
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collaboration low-temperature scanning tunneling microscopy (STM) as well as atomic force microscopy (AFM) in the workgroup of Prof. Manuel Gruber (UDE), and first-principles electronic structure calculations in
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, energy, and automotive. Among its variants, wire-arc directed energy deposition (WA-DED) is emerging as an increasingly compelling approach for building large-scale structural components. This process
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with Cross Laminated Timber (CLT) panels is a logical step to reduce the embodied carbon and sequester carbon within the structure itself. To demonstrate the performance of this technology at full-scale
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approach for fabricating large-scale structural components. This process involves feeding a metal filler wire—either coaxially or off-axis—into an electric arc to generate a molten pool that solidifies on a
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multifunctional spatial structures? The PhD will identify bottlenecks and opportunities for combining and clustering old and new activities, thus providing a solid foundation for designing regions in which
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evaluate the quality of various construction materials for these purposes, as well as to evaluate of the environmental impact of reusing/recycling construction materials for new buildings, e.g. through Life
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) uses data, computational methods and artificial intelligence to study biological systems and processes at all levels, from molecular structures and cellular processes to human health and global
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systems. We will also conduct LCA and environmental impact assessments of our material and conduct user studies to acquire practical feedback on panel designs. The final biobased wall demonstrator
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, the research will focus on how ESG indicators can be meaningfully embedded into portfolio assessments and risk models. For instance, should a construction firm that actively reduces its environmental impact be