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The project focuses on the experimental realization and study of artificial microswimmers/microrobots that can move and interact autonomously in 3D environments, mimicking the complex dynamics
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-analysis pipelines (statistics, mathematical modeling, and ML) for terabyte-scale 3D histology images, from preprocessing to analysis and validation. Handle and visualize large 3D microscopy datasets. Image
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Vacancies PhD position “Synthetic Active Matter: Unravelling 3D Real-Space Dynamics” Key takeaways The project focuses on the experimental realization and study of artificial microswimmers
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, biomechanics, and sensory ecology. Using 3D videography, EZO has previously unraveled and modelled the behavioral rules of swarming malaria mosquitoes, providing a solid foundation for exploring flight behavior
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microswimmers/microrobots that can move and interact autonomously in 3D environments, mimicking the complex dynamics of microorganisms in fluids. Living systems such as bacteria or algae exhibit remarkable
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electrical conductivity. Implement the developed models and validate them against welding experiments. We are looking for a colleague who has experience in deriving and implementing numerical methods to solve 3D field
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the Experimental Zoology Group (EZO) at Wageningen University, which has strong expertise in insect ethology, biomechanics, and sensory ecology. Using 3D videography, EZO has previously unraveled and modelled
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handling, enabling first-time-right manufacturing. The predictive quality of these tools relies on accurate constitutive models that describe the behavior of the molten material during forming. With
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adaptation and learning from their experiences. Using a combination of theory, numerical experiments and precision desktop experiments, we will create 3D materials with self-adapting elastic elements
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design and material handling, enabling first-time-right manufacturing. The predictive quality of these tools relies on accurate constitutive models that describe the behavior of the molten material during