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    • The effect of the GNSS disposal strategies on the long term evolution of the MEO region

    Paper number

    IAC-16,A6,2,7,x32313

    Coauthor

    Dr. Alessandro Rossi, IFAC-CNR, Italy

    Coauthor

    Dr. Elisa Maria Alessi, IFAC-CNR, Italy

    Coauthor

    Dr. Giovanni Valsecchi, INAF-IAPS, Italy

    Coauthor

    Dr. Hugh G. Lewis, University of Southampton, United Kingdom

    Coauthor

    Dr. Camilla Colombo, Politecnico di Milano, Italy

    Coauthor

    Dr. Luciano Anselmo, ISTI-CNR, Italy

    Coauthor

    Dr. Carmen Pardini, ISTI-CNR, Italy

    Coauthor

    Dr. Florent Deleflie, IMCCE, France

    Coauthor

    Dr. Klaus Merz, European Space Agency (ESA), Germany

    Year

    2016

    Abstract
    The analysis of different disposal strategies for the spacecraft
belonging to the Global Navigation Satellite Systems (GNSS),
with particular emphasis on the European Galileo system,
is the aim of this study.  The possibility to store the disposed spacecraft in stable circular orbits above the operational orbits is the currently adopted strategy and seems, at first sight, the most viable one. Nonetheless, this procedure is hindered by a few drawbacks. First, the accumulation of a significant number of spent
uncontrolled spacecraft in a limited region of space can give rise to a local collisional activity, with no possibility to control it from the ground with space surveillance means and avoidance manoeuvres. Moreover the noted instability of the GNSS disposal orbits can lead the disposed spacecraft back to dangerous crossings with the operational orbits in a not too distant future.

The results of numerical simulations of the long term
evolution scenarios, implementing different disposal strategies, are shown and discussed. A detailed analysis of the collision risk and manoeuvres need, related to the different scenarios, was performed.

In terms of the long term evolution, the scenarios where the
orbital instabilities are exploited to remove the objects from the operational regions seems favourite. That is, if the focus is on the long term sustainability of the space environment, the possibility to dilute the collision risk and to aim at the re-entry in the atmosphere of a subset of the
disposed GNSS spacecraft is the most attractive.
The most "problematic" constellations are Glonass and Beidou. This conclusion is driven by the future launch traffic hypothesized for these constellations and by the past practices that left already a significant number of large uncontrolled spacecraft in the constellation orbital zone, in the case of Glonass. On the other hand, the Galileo constellation is well detached from the
others and faces the lowest collision risks.

The Stable scenarios seems to minimize the interactions (crossings) with the operational constellations and, therefore, might be preferred for operational reasons. In particular, in the Stable scenarios the inter-constellations interaction is negligible.

Particular care should be devoted to the efficiency and reliability of the disposal manoeuvers.  A significant share of the collision risk faced by the operational satellites in every simulated scenario can be traced back to the failed satellites (the success rate of the disposal manoeuvers was assumed to
be 90 \% for all the constellations).
Study performed under ESA Contract 4000107201/12/F/MOS.
    Abstract document

    IAC-16,A6,2,7,x32313.brief.pdf

    Manuscript document

    IAC-16,A6,2,7,x32313.pdf (🔒 authorized access only).

    To get the manuscript, please contact IAF Secretariat.