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. At present there is specific interest in advanced 3D perception techniques such as geometric foundation models, implicit neural rendering (NeRF, Gaussian Splatting) as well as semantic mapping. Our research
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to create analysis‑ready, topology‑correct 3D city models from multi‑modal geospatial data. The position is hosted at the Department of Mathematical Sciences at Chalmers University of Technology and the
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. To overcome these limitations, the TUNIC project will utilize a “phenotype-first” approach. This involves: Creating a 3D “tumor-on-a-chip” (ToC) model: This model will incorporate primary human cells
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applications The Department of Physics at Umeå University is offering a postdoctoral scholarship for a project that aims to develop high-performance computing (HPC) models and simulation tools for space weather
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mechanical engineering or in a related field, duly recognised in Portugal, whenever legally required. Proven experience in 3D modelling, Design for Manufacturing and Assembly (DFM/DFA), and numerical
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Université Paris-Saclay GS Santé et médicaments | Chatenay Malabry, le de France | France | about 2 months ago
revolutionized the cardiology field with the use of cardiomyocytes for personalized disease modeling and drug testing. However, 2D cultures do not reflect 3D complexity of the heart, where the geometry
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process rates and genes that are differentially expressed in genome-sequenced marine model bacteria and natural marine bacterial assemblages. Analyses will involve state-of-the-art techniques in microbial
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; Proficiency in ROS/ROS2 (Robot Operating System) and middleware for data integration; Knowledge of temporal and spatial synchronization of sensors and extrinsic/intrinsic calibration. Computer Vision and 3D
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that are differentially expressed in genome-sequenced marine model bacteria and natural marine bacterial assemblages. Analyses will involve state-of-the-art techniques in microbial ecology and molecular biology (e.g. gene
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, inflammation, and disease resolution, using the joint as a model system. To maximise the impact of tissue discoveries, our lab follows a bedside-to-bench-and-back scientific approach, in which human and mouse