Essays about: "Satellite Formation Flying"
Showing result 1 - 5 of 8 essays containing the words Satellite Formation Flying.
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1. Real-Time Navigation for Swarms of Synthetic Aperture Radar (SAR) Satellites
University essay from Luleå tekniska universitet/RymdteknikAbstract : The pursuit of precision and flexibility in satellite missions has led to an increased number of formation flying missions being developed. These systems consist of multiple satellites flying at close distances (from a few kilometres to a few meters) to achieve common objectives. READ MORE
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2. Comparison of Control Approaches for Formation Flying of Two Identical Satellites in Low Earth Orbit
University essay from KTH/RymdteknikAbstract : Formation flying of satellites describes a mission in which a set of satellites arrange their position with respect to one another. In this paper, satellite formation flying guidance and control algorithms are investigated in terms of required velocity increment Delta-v, and tracking error for a Chief/Deputy satellite system. READ MORE
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3. Further Development of a Distributed Robust Control Approach towards a Nanosatellite Formation Flying Application
University essay from Luleå tekniska universitet/RymdteknikAbstract : This thesis proposes a distributed robust control approach for low-thrust nanosatellite formation flying. The presented control approach is the further development of an already existing approach which combines robust control and distributed control using the consensus approach. READ MORE
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4. Integration of an Attitude Simulation Framework in a Multi Satellite Formation Flying Simulation Framework
University essay from Luleå tekniska universitet/RymdteknikAbstract : .... READ MORE
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5. Networked Model Predictive Control for Satellite Formation Flying
University essay from Luleå tekniska universitet/RymdteknikAbstract : A novel continuous low-thrust fuel-efficient model predictive control strategy for multi-satellite formations flying in low earth orbit is presented. State prediction relies on a full nonlinear relative motion model, based on quasi-nonsingular relative orbital elements, including earth oblateness effects and, through state augmentation, differential drag. READ MORE