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Research Fellow in Radar and Radio Frequency Sensor Design Job No.: 676242 Location: Clayton campus Employment Type: Full-time Duration: 2 year fixed-term appointment Remuneration: $80,464
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are motivated to use fundamental physical principles to create a new technology. Precision timekeeping is essential for navigation, communication, and radar. An atomic clock that is small, low-power, and cheap
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at the University of Birmingham: MISL and Cold Atom Interferometry Group. MISL is the largest academic research team in the UK working in radar, remote sensing and signal processing. MISL is a unique collaborative
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reservoir characterization and satellite radar interferometry. The postdoc should contribute to and collaborate with other group members on multi-disciplinary research problems in induced seismicity
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include radar meteors and ionospheric phenomena observed with EISCAT and other instruments. The successful will candidate participate in analyses of ionospheric radar observations and of observations
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vehicle (AV), allowing for automated detection, prediction, mapping, and planning. During the vehicle’s operation, data is obtained through a myriad of sensors in an AV—including RADAR, LIDAR, cameras, and
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. The department participates in the CSU Information Science and Technology Center, the CSU-CHILL National Radar Facility, and the NSF Engineering Research Center for Collaborative Adaptive Sensing of the Atmosphere
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high-resolution datasets on snow depth in Western Norway derived from machine learning and radar remote sensing. The successful PhD candidate for this position will work within the scope of the project
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project/work tasks: The SnowAI project aims to use to produce new high-resolution datasets on snow depth in Western Norway derived from machine learning and radar remote sensing. The successful PhD
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advance our understanding of high latitude electrodynamics, including plasma irregularities, turbulence and space weather effects. The main tools used in these investigations are ground-based radar and