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ACCURACy: Adaptive Calibration of CUbesat RAdiometer Constellations

Mustafa Aksoy​
State University of New York, Albany​

ECF 2019 Quadchart Aksoy

Mustafa Aksoy

Constellations of CubeSat radiometers offer enormous potential for Earth and Space observations as low-cost platforms with significant advantages over single, large and expensive monolithic systems such as real-time measurements with large coverage, resiliency of a distributed observation system, and graceful degradation with low-cost replenishment. On the other hand, to obtain stable and accurate calibration of individual sensors in the constellation, as well as precise calibration of the entire constellation to ensure uniform, consistent, and spatiotemporally continuous measurements are some of the main challenges in utilizing such constellations. To address these challenges, the proposed research will develop a framework called “Adaptive Calibration of CUbesat Radiometer Constellations (ACCURACy)” to calibrate CubeSat radiometer constellations in real-time via a novel approach by considering constellations as single systems to calibrate in their entirety.

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