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Field
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The Postdoctoral Research Associate will conduct advanced research in salinity gradient (“blue energy”) harvesting and vibration-based energy harvesting, focusing on developing next-generation self-powered sensing
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accurate, efficient, and robust AI models capable of operating effectively within complex and dynamic radiofrequency spectral landscapes, accounting for real-world interference, noise, and channel
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requirements. Lifting up to 25 lbs. WORK ENVIRONMENT: Laboratory environment. Moderate noise. Exposure to blood, excrement, antineoplastic drugs and possible exposure to infectious and communicable diseases
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, talking, and hearing. Experience working in a fast-paced environment. Lifting to 25lbs. Work Environment: Open office environment and lab environment. Moderate noise and foot traffic. Special Conditions
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for real-world interference, noise, and channel variability. You will collaborate with other members of the group who will support the practical deployment of the developed AI models on portable and embedded
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Alfred-Wegener-Institut Helmholtz-Zentrum für Polar- und Meeresforschung | Oldenburg Oldenburg, Niedersachsen | Germany | about 1 month ago
gauge the acoustic footprint of ships in various types of Antarctic habitats as well as their cumulative impact on seasonal soundscapes and their cumulative impact on the local underwater noise budgets
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frames. Contribute to fabrication using composite and polymer additive manufacturing. Prepare and execute aerodynamic, vibration, and endurance testing campaigns. Assist in assembling and calibrating
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. Chemistry A European J2022, 28 (20). https://doi.org/10.1002/chem.202104302 . Cortijo M, Valentín-Pérez Á, Rosa P, Daugey N, Buffeteau T, Hillard EA. Resolution, structures, and vibrational circular dichroism
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(including PAMELA (link is external) , vibrational spectroscopy and cryogenic-EM); (ii) investigations of novel materials and devices at the nanoscale. The chemistry-based subgroup is exploring new and
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National Aeronautics and Space Administration (NASA) | Pasadena, California | United States | 2 months ago
bulk LWIR materials, and further work is needed to fully exploit this approach for high QE and low noise in large LWIR arrays. Significant enhancement is also possible in the design and fabrication