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identify optimal hierarchical shaped pore- and electrode-structure to encounter optimum electrolyte as well as electrical flow. Prototyping of the identified structures via stereolithographic, 3D printing
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based separation of blood from animal experiments experience of 3D-design in Fusion 360 and 3D-manufacturing of microfluidic systems experience of statsitical assessment of clinical chemistry data
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and written proficiency in English Additional requirements: experience of acoustofluidic based separation of blood from animal experiments experience of 3D-design in Fusion 360 and 3D-manufacturing
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: Help develop a non-invasive computer vision method to track and analyze how hens move in 3D space. You will gain hands-on experience in behavioural studies, animal welfare science, and innovative data
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well as electrical flow. Prototyping of the identified structures via stereolithographic, 3D printing and textile techniques like tufting, machine-based embroidery techniques or non-interlaced 3D pre-forming
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to the eukaryotic cytoskeleton.[AB2] [BF3] [AB4] The thesis project will focus on electron microscopy (EM) method development. This by combining cryo-EM sample preparation, single particle and helical 3D
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] [AB4] The thesis project will focus on electron microscopy (EM) method development. This by combining cryo-EM sample preparation, single particle and helical 3D reconstruction, as well as in situ
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questions include automated modeling and model simplification/refinement supported by generative AI, system identification, and 3D reconstruction algorithms. Additionally, the research involves developing
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learning. As the communication of research results mainly takes place in English, this employment requires fluency in English, both spoken and written. Given the research potential for outreach to the public
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while end users interact with them in a seamless manner without being aware of the state-of-the-art technologies involved, including cloud computing, IoT, and augmented/mixed/virtual/extended reality