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based in the research group “Historical Building Research” (Head G. Styhler-Aydın) of the Department of Historical Archaeology (see https://www.oeaw.ac.at/en/oeai/research/historical-archaeology
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targets enabling innovative cancer therapy strategies. Techniques: Live-confocal microscopy, super-resolution microscopy, 2D and 3D cell cultures, hydrogels of different stiffness, proximity biotinylation
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and implement multimodal retrieval with re-rankers for robust profile selection. Design and train advanced AI models for digital twin: 3D model learning, prediction models from imaging and molecular
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California State University, San Bernardino | San Bernardino, California | United States | 9 days ago
a State of California Employer. As such, the University requires all employees upon date of hire to reside in the State of California. As of January 1, 2022 the https://calstate.policystat.com/policy
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massively parallel FFT-based simulation platform for polycrystalline plasticity, enabling efficient simulation of the mechanical response of realistic 3D microstructures. These simulations will be used
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liquid and solid, is also at the basis for many innovations such as 3D printing, biological tissue engineering, and robotics. Sound waves, and their associated “radiation pressure,” can apply average
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to join the interdisciplinary SNSF-funded research project "Digital Originals in 3D" (D2M). This innovative project is a collaboration between the University of Basel, the Bern University of the Arts, and
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combines technical expertise in 3D content creation and animation with cutting-edge virtual production workflows, including LED volume systems, motion capture technologies, and real-time rendering pipelines
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and techniques in archaeology. The project has aimed to develop a two-part research programme. The first part focuses on developing and applying methods for 3D digital modelling, ranging from
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on existing methods, including a foundational model for mapping 2D mouse images to a canonical 3D mesh, with the goal of extending to full 3D reconstruction. This will enable inferring canonical 3D postures