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, thermal, depth, LiDAR, acoustic, sonar and radar sensor data, with established research lines in 3D reconstruction, and Edge AI for resource-constrained deployments. Where to apply Website https
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of 3D crystalline structures; – depending on the candidate's profile, implementing machine learning methods (AI & machine learning) for the analysis of physicochemical data from the hpmat.org database
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characterization of metallic materials, using state-of-the-art analytical instruments such as transmission electron microscopy (TEM) and 3D atom probe (3DAP), as well as on the development of analytical
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abilities to work on a new exciting research programme. The Leverhulme Trust have funded a 3 year project at Cardiff University to enable automated determination of the 3D atomic structure of metal
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-assisted Simulations of Microstructure driven Mechanical properties from high Throughput and multiscale analysIS), in the framework of PEPR DIADEM[2] , which aims to develop an advanced characterization
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solar tornadoes. The main objective of this project is to provide 3D directional energy flux maps of the solar atmosphere. It will be achieved by tracking the intricate interplay between plasma flows and
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shift What you’ll contribute: Lab Operations: Lead complex procedures associated with research donor brain procurement, dissection, preservation and analysis, and will lead an on-call team for these cases
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analysis) 2D / 3D culture and manipulation of human and animal (tumor) cell lines Tumor tissue analysis (ex vivo culture) Your responsibilities will include: Planning and conducting molecular biology
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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
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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