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biomedical research. Ultrasound Localization Microscopy (ULM) is a breakthrough imaging modality that enables scientists to visualize the microvasculature of living organisms with a 10 microns precision
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Challenge: Developing high-speed 3D ultrasound localization microscopy (ULM) Change: State-of-the-art artificial intelligence (AI) techniques to improve ULM Impact: Enable visualizing 3D
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, studies, etc.) in the France for more than 12 months in the 36 months preceding the recruitment start date. High-power ultrasound has long been known to disrupt particulate aggregates with applications
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mechanical environment by optimising its structure, a process known as bone remodelling. Ultrasound stimulation of bone regeneration (UStim) was discovered in the 1950s and has been widely studied ever since
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-resolution spectroscopic techniques (NMR, muon spin relaxation, inelastic neutron scattering) and bulk thermodynamic measurements (ultrasound, specific heat) at very low temperature; pursuing our recent
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ultrasonics is one of these techniques and it does this by linking the elasticity of individual crystals and measured ultrasound wave speeds. However due to this being an ill-defined problem, a computationally
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ultrasound devices”. This project is an interdisciplinary collaboration with the University of Vienna, the Medical University of Vienna, and General Electrics (GE) HealthCare. For further information
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academic work to industrial practice. An additional academic secondment in CNRS/ENS de Lyon (France) offers the opportunity to explore how ultrasound can alter/control these filled gels. The Ph.D. project
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Categories:Engineering, Research / Scientific Job Description The Vlaisavljevich Research Group (https://ultrasound-lab.beam.vt.edu/) in the Department of Biomedical Engineering and Mechanics at Virginia Tech is seeking
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Keywords: Ultrasound and Vibration, Structural Dynamics, Composite Structures, 3D Printed Structures, Damage, Assessment, Structural Health Monitoring, Structural Health Prognosis, Bayesian Statistics