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to contribute to a highly collaborative, international project developing open-source low-field MRI systems for neuroscience research; Have research experience in compressed sensing and/or multi-contrast image
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to: Developing advanced end-to-end systems for the enhancement, compression, storage, and display of CBCT and CT images acquired using low-radiation dose protocols, as well as MRI images obtained through fast
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developing innovative methods focused on enhancing the visual quality of Cone-Beam Computed Tomography (CBCT) and other medical imaging modalities, creating advanced compression techniques for efficient
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/id_offre/133212 Requirements Specific Requirements Le/la candidat(e) devra posséder : — Une solide formation en mathématiques appliquées, incluant le traitement du signal et/ou des images. — Une bonne
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University of California, San Francisco | San Francisco, California | United States | about 21 hours ago
CS Enterprise Imaging Full Time 86076BR Job Summary This position will work onsite several days per week in various San Francisco locations. Applies skills as a seasoned clinical applications
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methods focused on enhancing the visual quality of Cone-Beam Computed Tomography (CBCT) and other medical imaging modalities, creating advanced compression techniques for efficient storage, designing high
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research; Have research experience in compressed sensing and/or multi-contrast image reconstruction, and are keen to push the boundaries of what is possible with affordable imaging platforms. For informal
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driving discovery, advancing care, and educating leaders. Position Summary The incumbent will be a member of the fundraising team dedicated to cancer programs at the Herbert Irving Compressive Cancer Center
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University focused on one of the most energy-intensive operations in the industry: gas compression. Compression accounts for 10% of industrial electricity use in the EU, costing over €4 billion annually
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stereolithographic, 3D printing and textile techniques like tufting, machine-based embroidery techniques or non-interlaced 3D pre-forming. Development of advanced imaging and characterization technologies (X-ray micro