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of these positions will be electrochemical modeling of high-energy cells. The successful applicant will develop detailed physics- and chemistry-based transient mathematical models for cell charge and discharge, based
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-distance collaborative autonomy; ● Autonomous Unmanned Systems: aerial robotics, robot motion planning, digital twin development, robot navigation of complex terrain, and simulation-based verification
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electrochemical modeling of high-energy cells. A particular emphasis will be on high-rate charging of this cell, at several temperatures. The successful applicant will develop detailed physics- and chemistry-based
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protocols Publications and Presentations Contribute to publications that summarize study findings. Help draft manuscript, prepare tables and figures based on findings, prepare bibliographies. Assist in
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of Aerospace Engineering, full-time, for at least one year, renewable for a second year upon satisfactory performance. Remuneration will be competitive and based on qualifications. The expected start date is Nov
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become available as well as new machine learning-based approaches for modeling space-time trends. As a result, the postdoctoral researcher will assist with: (1) collect and manage a database of diverse
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, cryogenic systems, wideband gap materials, and Machine Learning based electrothermal analysis of devices. The Postdoctoral Associate will perform research under the direction of PIs – Dr. Samuel Graham and Dr
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/. The Center for Health Information & Decision Systems (CHIDS) is an academic research center based in the Decision, Operations & Information Technologies (DO&IT) department at the Robert H. Smith School