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retention, control), physical and numerical modelling (2D/3D) Independent research in the field of the dissertation topic Independent teaching, language of instruction German Training and further education
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excellence at European level from which senior and junior researchers from around the world develop disruptive technologies and business models that will serve as an engine of socio-economic growth in
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. The technical tasks consist of preparing 3D models of the human respiratory tract airways using CT medical data, measuring and analysing them geomorphometrically, and conducting virtual experimental studies using
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The Ignaz Semmelweis Institute (https://semmelweisinstitute.ac.at/) seeks applicants to fill five group leader positions. The Institute’s focus is basic and translational research in infectious
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with NeRF, Gaussian Splatting, or other neural rendering models. Knowledge of 3D reconstruction pipelines such as photogrammetry, structure-from-motion (SfM), or multi-view stereo (MVS). Interest in
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Essential: C1. Practical knowledge of 3D tissue imaging, including 3D whole-mount tissue imaging. C2. Practical skills in conducting and analysing tissue macrophage biology in animal models, including
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Inria, the French national research institute for the digital sciences | Montbonnot Saint Martin, Rhone Alpes | France | 29 days ago
curly fibers. Additionally, in many cases, the underlying model for the simulation is not systematically tested for its validity. To bring a breakthrough on the realistic simulation of frictional fibers
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and screen for drug interventions without using animal models. In this project, the PhD candidate will develop an organ-on-chip device to support the growth and stability of 3D human microvasculature
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for electrical machines based on custom-designed embedded hardware and edge-deployable AI models. Building upon prior work that established basic IoT connectivity and AI-based fault detection methods
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Signal Decoding for Neural 3D Human Motion Reconstruction and Transfer Using Latent Diffusion Models” (2026–2029) at the University of Oulu. The project develops next-generation non-invasive brain–machine