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printing. Plan and carry out experimental programs involving the fabrication, testing, and characterization of concrete and composite materials. Develop architected structures using numerical simulation
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scientific computing, image data processing and numerical simulations would be most welcome You should enjoy working in an interdisciplinary, multinational research environment Being an enthusiastic researcher
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their advisors with calibrated tools to evaluate the outcomes of competing management decisions, thereby optimizing productivity, nutritional efficiency, animal health, and sustainability, particularly by
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management decisions, thereby optimizing productivity, nutritional efficiency, animal health, and sustainability, particularly by reducing net carbon emissions and refining antimicrobial use. The successful
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in at least one of the following: optimization, PDEs, optimal control, numerical analysis/scientific computing, or machine learning for differential equations and control. Evidence of research
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: Perform high-fidelity thermal and mechanical numerical simulations for metal additive manufacturing. Develop and implement PIML models for analysis and optimization of metal additive manufacturing
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do: Design, fabricate, characterize, and optimize electrochemical biosensing technologies for real-time detection. Develop and implement novel surface chemistries to improve sensor performance
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: Development, performance analysis and optimization of end-to-end science workflows, including those originating at DOE facilities. Deployment of capabilities such as AI training and inference at scale, and
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in the following areas: Deep Learning, Scientific Machine Learning, Stochastjc Gradiant Descent Method, and Numerical PDE’s - Advised by Dr. Yanzhao Cao Probabilistic Graph Theory (Network Traversal
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simulated wave conditions. Perform numerical study of the model test. Analyze and interpret data to make informed recommendations for costal protection system design and optimization Writing and publication