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period of nine months, performing some of the following tasks: Evaluation of fatigue and motor and cognitive functions in rats using different behavioral tests: fatigue (Treatmill), motor coordination and
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order to evaluate as early as possible the switching performance and the best compromises between component parameters, conduction and switching losses. The different architectures will be evaluated in
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National Aeronautics and Space Administration (NASA) | Greenbelt, Maryland | United States | about 4 hours ago
Postdoctoral Program website for application instructions and requirements: How to Apply | NASA Postdoctoral Program (orau.org) A complete application to the NASA Postdoctoral Program includes: Research proposal
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performance against state of the art solutions and project KPIs Disseminate results through high impact journal and conference publications, demonstrations, and (where appropriate) patent filings Contribute
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noisy, high-frequency time-series sensor data (e.g., accelerometers, gyroscopes, biosignals) from mobile IoT devices. You will address specific challenges such as user heterogeneity, concept drift in
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emitting in the visible wavelength range, whose performance meets the requirements of industrial applications. The development of such high-performance fiber laser platforms requires advances in
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. To achieve the objective of the project, the activities will be grouped into 3 tasks: (1) Routine operation of the thermochemical heat storage apparatus : For this, the selected candidate will take charge of
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research. Experience with high-performance computing (HPC) environments. A strong publication record relative to career stage. Ability to organize tasks and work in an interdisciplinary team. Further
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. Knowledge and Professional Experience: · Knowledge of programming languages used in data analysis (particularly python) is strongly recommended. · High Performance Computing. · Experience with High Throughput
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, monodisperse microbubbles. The project aims to understand how the acoustic response of microbubbles changes upon molecular binding to capillary blood vessel walls, how this response differs from that of freely