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center for research and development directed toward optimizing Soldier performance and human-autonomy teaming. Research within HRED focuses on how to improve Soldier performance in a dynamic and changing
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kinematics specific to various CM configurations, semi-empirical models that capture “first-order” engagement physics for design optimization, and higher resolution efforts that identify promising attributes
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workflows Develop optimized biology workflows for automation Learn and perform high throughput assays with state-of-the-art technology Write technical reports for internal publication Work on a multi
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-structure-interaction (FSI) models for jet engine and hypersonic system optimization under off-design conditions. The candidate will have a deep knowledge of computational fluid dynamics (CFD) model
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behavior as a means of improving human-autonomy team outcomes. We are recruiting from a broad range of disciplines and academic levels, but applicants are expected to have expertise with computational and
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background in cognitive neuroscience, electrophysiology, applied mathematics, biomedical signal processing, complex systems, physics, computer programming, and statistics. ARL Advisor: Scott Kerick ARL
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superalloys in complex geometries will further enhance propulsion systems power density and design optimization. Areas of research to realize such materials include alloy design and synthesis, microstructural
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, Operations Research, Computer Science or related field. Track record of top research in multi agent systems, coordination, logistical planning of vehicle routes, resource constrained planning, heterogeneous