Sort by
Refine Your Search
-
Listed
-
Category
-
Field
-
scientific expertise to active and passive microwave remote-sensing missions, i.e. radar altimeters and imaging microwave radiometers, and potentially imaging SAR; establishing and managing mission objectives
-
requirements should be implemented; design and propose architecture and operations concepts and propose recommendations on the most promising technologies that should be leveraged; prototype software
-
-mm wave range as well as passive microwave imagers/sounders for ocean, land and atmospheric sensing. You will be engaged in the study and pre-development of one or more of these types of payloads. Your
-
, such as quantum sensors (Rydberg receivers, NV diamond sensors, etc.) and photonic sensors. You will also work on optical payloads based on more classical optical systems, including imagers and
-
security-oriented workflows. This includes designing methodologies that ensure traceability, robustness and bias mitigation in AI models, as well as creating prototype tools that demonstrate how transparent
-
, global ocean circulation and height systems. In addition, the temporal variations of gravity and the geoid help to measure mass exchange processes in the Earth system. Knowledge about the time-varying
-
missions) and operational missions (e.g. Copernicus and meteorology missions). The above payloads include EO multispectral imagers, imaging spectrometers and Fourier-Transform spectrometers, as