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National Aeronautics and Space Administration (NASA) | Greenbelt, Maryland | United States | about 6 hours ago
. Description: Advances in thermal remote sensing are providing new insights into plant water use as well as impacts of heat and drought. Tiered monitoring and measurement approaches using in-situ, drone
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National Aeronautics and Space Administration (NASA) | Greenbelt, Maryland | United States | 3 months ago
. Description: Advances in thermal remote sensing are providing new insights into plant water use as well as impacts of heat and drought. Tiered monitoring and measurement approaches using in-situ, drone
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holder will use existing thermal remote sensing data, along with newly developed thermal models, to constrain the variability of Europa’s surface temperatures, properties and activity properties ahead
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undergraduate students during summer months. Apply existing remote sensing based algorithms, such as 3T, to estimate latent heat fluxes from thermal imagery and soil water balance. Develop and test upscaling
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undergraduate students during summer months. Apply existing remote sensing based algorithms, such as 3T, to estimate latent heat fluxes from thermal imagery and soil water balance. Develop and test upscaling
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the following objectives: 1. Characterize 3-D Urban Structure and Change: Utilize data from multiple remote-sensing platforms and deep learning algorithms to generate high-resolution maps of 3-D urban structure
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models of surface change for comparison with morphometric analysis of visible remote-sensing observations of Mars and icy worlds Minimum Qualifications: PhD in engineering, planetary science or any related
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#2642 Apply Now Share this job on: Job Information Positions Available 1 Closing Date 9 Jul 2025 Type Temporary Full-Time Location Edmonton AB Remote Option None Department Ovintiv Chair Operations School
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, and thermal design of a compact and robust laser, exploiting the existing capabilities of additive manufacturing; 2. Testing and analysing new concepts on metal 3D printed parts; 3. Developing and
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advanced laser-based manufacturing. The project is split into three areas: 1. Optical, mechanical, and thermal design of a compact and robust laser, exploiting the existing capabilities of additive