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responsible for ensuring technical drawings are completed accurately using the 3D computer-aided drafting program, SOLIDWORKS. The individual will complete and coordinate engineering drawings including layouts
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in image processing and analysis, including deep learning (e.g., CNNs) experience with correlative imaging workflows and 2D/3D registration techniques strong programming skills in Python and/or C/C
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themes: (a) learning efficiency, computational creativity (zero, few-shot, and long-tail learning of 2D and 3D vision tasks. This also includes efficient generative models that are capable of generating
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, the Biomechanics Laboratory at the Chair of Trauma Surgery was founded and equipped with state-of-the-art technology. The aim of this research laboratory is the experimental analysis and numerical simulation
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to 3D printing partners. 4. Bibliographic and patent analysis. 5. Coordination of project activities jointly with the Partners. 6. Drafting of deliverables and Project Milestones. 7. Monitoring
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of: Perform advanced microstructural and topological analysis of natural fibres using 3D imaging and image‑processing tools. Design and refine routes to isolate and tailor lignin fractions derived from
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) Solid-phase peptide synthesis; b) Chromatographic techniques for analysis and purification (e.g., reverse-phase HPLC); c) Handling of 3D cellular models and bioprinting. 3. WORK PLAN Collaboration in
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, and phenotypes in disease-relevant contexts. Our research blends engineered 3D biomaterials with advanced imaging and molecular tools to elucidate biological mechanisms that can ultimately inform
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, including data collection, post-processing, analysis, and documentation. Perform design trade studies and document the resultant design requirements, intent, and concepts. Create 3D CAD models, applying
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neutrophils, tumor cells, CD8+ T-cells, and cancer-associated fibroblasts, within a biomimetic 3D hydrogel that replicates the tumor microenvironment. Observing neutrophil behaviour: Automated image analysis