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Computational Imaging Research Lab (CIR), Department of Biomedical Imaging and Image-guided Therapy | Austria | about 1 month ago
5 Nov 2025 Job Information Organisation/Company Computational Imaging Research Lab (CIR), Department of Biomedical Imaging and Image-guided Therapy Research Field Computer science » Modelling tools
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Veterinärmedizinische Universität Wien (University of Veterinary Medicine Vienna) | Austria | 26 days ago
of the hospital. Main Research Field: veterinary diagnostic imaging Where to apply E-mail bewerbungen@vetmeduni.ac.at Requirements Research FieldMedical sciences » Veterinary medicineEducation LevelPhD
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Veterinärmedizinische Universität Wien (University of Veterinary Medicine Vienna) | Austria | about 2 months ago
, teaching, continuing education and clinical services with Diagnostic Imaging. The aim is to strengthen Vetmeduni's role as a motor for innovation and transformation according to the university's development
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learning, the candidate will support the research team in designing, implementing, and evaluating prototype solutions that identify instrumentation points and generate and extend instrumentation code and
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, and analysis of morphometric experiments using immunofluorescence, high-resolution confocal microscopy including super-resolution and 3D reconstruction Quantitative image evaluation and morphometric
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resolution down to sub-1 µm with ablation rates up to 500 Hz. Today this platform is at the forefront of elemental bio-imaging, referring to the measurement of endogenous and exogenous metal distributions in
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computing. These include computer graphics and geometry processing, computer vision and image processing, visualization and visual analytics, augmented and virtual reality, machine learning and deep learning
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these insights into therapeutic strategies. Our lab combines cutting-edge in vivo imaging, electrophysiology, and computational modeling with multiomics to bridge mechanistic understanding from the neuron
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research that directly benefits patients? Join our translational research team and help shape the future of pediatric leukemia treatment through image-based drug profiling. We’re looking for a dedicated
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resolution down to sub-1 µm with ablation rates up to 500 Hz. Today this platform is at the forefront of elemental bio-imaging, referring to the measurement of endogenous and exogenous metal distributions in