In the last decades, an increasing attention has been devoted to space gravimetric missions, with the goal of improving the understanding of Earth’s mass change phenomena. One of the main objectives of these missions consists in measuring the temporal variations of the Earth gravity field over a long-time span, with very high spatial and temporal resolutions. In this context, the paper focuses on a gravity monitoring mission featuring a formation with two satellites following each other on the same orbit and each of them drag compensated. The aim is to design a formation control which is able both to counteract bias and drift of the residual drag-free accelerations and to reach the orbit and formation long-term stability. At this purpose, a Nonlinear Model Predictive Control (NMPC) framework is considered. A key element of this control technique is the use of an internal prediction model for finding an optimal trajectory over a finite time interval. Here, an Integrated Formation Control (IFC) model, based on a novel set of Hill-type equations, has been used. This model allows a common description of the formation altitude and inter-satellite distance, by defining a specific orbital reference frame called Formation Local Orbital Frame (FLOF). The ESA Next Generation Gravity Mission (NGGM), as part of the ESA-NASA cooperation in the frame of the MAGIC (Mass Change and Geosciences International Constellation), is considered as a benchmark for the developed NMPC framework. In this regard, a high-fidelity nonlinear model, with the 30th order gravity field and various atmospheric disturbances (e.g., atmospheric drag and solar pressure), has been used. Furthermore, to simulate a realistic situation, the issues related to the transmission of data between satellites is also considered by assuming long sampling times of the measurements due to absence of a radio-frequency inter-satellite link. Such lack of data has been dealt with the implementation of orbit propagators, which are able to propagate, on board of each ...


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    Title :

    NMPC-Based Orbit and Formation Control for an Earth-Gravity Monitoring Mission



    Publication date :

    2021-01-01


    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



    Classification :

    DDC:    629



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