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Field
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combining different complementary sources of information (e.g. remote sensing, satellite imagery, LiDAR, orthophotomaps), and (d) to build a decision support system (Dashboard) to evaluate the exposure
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water quality and their dynamics in the fjords of Floundering data generated from these facilities and remote sensing. To advance knowledge in this field, the Department of Ocean Operations and Civil
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) physics, geosciences, meteorology, oceanography, or similar. You have strong programming skills (Python or similar). You have affinity with spatiotemporal data analyses, remote sensing and numerical
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the understanding of large-scale irrigation-atmosphere interactions. You will use state-of-the-art global satellite remote-sensing data to analyse the impact of irrigation on cloud and rain formation. This will
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rely on sophisticated SatComs to reach remote areas, provide low-latency communications, and enable advanced connectivity capabilities in combination with terrestrial networks. The objective of this PhD
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MSc degree (or equivalent) in oceanography, including components of ocean science and engineering Experience in ocean observation technology including remote sensing, in-situ observations and data
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the aim of taking the complex spatial structure of clouds into account in climate models and global remote sensing. The position thus offers highly relevant and interesting opportunities for work and
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research. MiRadOr is based on a one-year long field campaign with remote sensing instruments in northern Germany and includes an intense observation period during summer where our team will be in the field
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Background: Access to healthcare is an ever-increasing global issue. Over 15% of current global population require rehabilitation care, but majority of them do not receive healthcare access. Remote
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Access to healthcare is an ever-increasing global issue. Over 15% of current global population require rehabilitation care, but majority of them do not receive healthcare access. Remote monitoring