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, and implementation of medical devices, software, operational workflows, realistic spacecraft, and mission environment models for display on immersive screens and physical prototypes using 3D printing
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-funded project that focuses on tracing the impact of atmospherically deposited per- and polyfluoroalkyl substances (PFAS) in the Great Lakes region. The project seeks to quantify PFAS deposition from
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-Service (MaaS) ecosystem. The work will integrate deep reinforcement learning, autonomous agent modelling, and multi-objective optimization to enable predictive simulation, real-time resource management
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molecular and cellular mechanisms governing centrosome function, cytoskeletal organization, and tissue morphogenesis. Using zebrafish and cell culture models, the lab integrates advanced live-cell imaging
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considered an advantage but is not a requirement. Regardless of the candidate’s educational background, the following are considered an advantage: Understanding of data architectures, data modeling and data
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. THE PROJECT: Cancer treatment is difficult because patients respond differently to therapies and because therapy responses are challenging to predict beforehand. The candidate will develop computational models
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. The successful candidate will be a member of a highly interdisciplinary team including oncologists, biologists, engineers, and imaging scientists. The candidate will develop computational models of human disease
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synthesis, structural and spectroscopic analysis, and computational modeling of framework stability and transformations. The position requires a high degree of expertise in synthetic inorganic or materials
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approach, spanning basic biology and translational medicine using mouse models and patient samples, tackles complex questions with profound implications for human health. Projects are available to decipher
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Standard Hours per Week 40 Full Time or Part Time? Full Time Shift Day Work Schedule Summary VP Area U of U Health - Academics Department 00213 - CVRTI Location Campus City Salt Lake City, UT Type