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A quantitative evaluation of the environmental impact of the mega constellations

A quantitative evaluation of the environmental impact of the mega constellations
A quantitative evaluation of the environmental impact of the mega constellations
The main focus of this work is to highlight the main parameters driving the future evolution of the debris environment, in presence of the planned LEO mega constellation of satellites. First, in order to identify the most important parameters that are actually driving the evolution of the environment and in an effort to discriminate between possibly equivalent scenarios, we applied tools from the statistical sciences, namely the Wilcoxon signed rank test, a non-parametric test which allows us, given two samples, to assess whether their population mean ranks differ. Then, by means of a simplified model of the constellation building and managing, we define an index able to quantify the environmental impact of the mega constellations. The index takes into account the physical and orbital characteristics of the constellation satellites, along with the mitigation practices adopted for each constellation. Based on the expected collision risk and the capability of avoiding impacts, the operational and non-operational satellites and the related upper stages, present in each constellation, enter the index computation with different relative weights to properly account for the global constellation effects on the environment. The model and the associated index, along with other metrics described in [6] and [4], allows us not only to highlight the prominence of some of the parameters entering in the definition of a satellite constellation but also to “predict” the influence that a change in that particular parameter is going to produce on the long term evolution of the environment. In the simulated scenarios, the parameters playing a major role in the effect that a mega constellation cause on the environment are: the mass and the area of the satellites, the failure rate in the operational
orbit and the collision avoidance success rate.
European Space Agency
Rossi, A.
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Alessi, E.M.
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Valsecchi, G.B.
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Lewis, H.
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Radtke, J.
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Bombardelli, C.
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Bastida Virgili, B.
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Flohrer, T.
Schmitz, F.
Rossi, A.
58df83d8-1f65-4765-a408-dbbff38a8090
Alessi, E.M.
f1af4c97-387b-4c28-9983-fa0ddea34647
Valsecchi, G.B.
c9d5b341-3d0c-46fa-8495-d3f55ad42d3e
Lewis, H.
e9048cd8-c188-49cb-8e2a-45f6b316336a
Radtke, J.
cffd0fc5-ea14-4dfd-a2fc-ad1e87410e84
Bombardelli, C.
ddd0dd37-5923-497d-be8a-cf828755e6c3
Bastida Virgili, B.
80db4418-1729-477b-baf7-aa2e38632089
Flohrer, T.
Schmitz, F.

Rossi, A., Alessi, E.M., Valsecchi, G.B., Lewis, H., Radtke, J., Bombardelli, C. and Bastida Virgili, B. (2017) A quantitative evaluation of the environmental impact of the mega constellations. Flohrer, T. and Schmitz, F. (eds.) In Proceedings of the 7th European Conference on Space Debris. vol. 7, European Space Agency. 11 pp .

Record type: Conference or Workshop Item (Paper)

Abstract

The main focus of this work is to highlight the main parameters driving the future evolution of the debris environment, in presence of the planned LEO mega constellation of satellites. First, in order to identify the most important parameters that are actually driving the evolution of the environment and in an effort to discriminate between possibly equivalent scenarios, we applied tools from the statistical sciences, namely the Wilcoxon signed rank test, a non-parametric test which allows us, given two samples, to assess whether their population mean ranks differ. Then, by means of a simplified model of the constellation building and managing, we define an index able to quantify the environmental impact of the mega constellations. The index takes into account the physical and orbital characteristics of the constellation satellites, along with the mitigation practices adopted for each constellation. Based on the expected collision risk and the capability of avoiding impacts, the operational and non-operational satellites and the related upper stages, present in each constellation, enter the index computation with different relative weights to properly account for the global constellation effects on the environment. The model and the associated index, along with other metrics described in [6] and [4], allows us not only to highlight the prominence of some of the parameters entering in the definition of a satellite constellation but also to “predict” the influence that a change in that particular parameter is going to produce on the long term evolution of the environment. In the simulated scenarios, the parameters playing a major role in the effect that a mega constellation cause on the environment are: the mass and the area of the satellites, the failure rate in the operational
orbit and the collision avoidance success rate.

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paper_ESOC2017_Rossi_et_al_megacon - Accepted Manuscript
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Published date: 2017

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Local EPrints ID: 414304
URI: http://eprints.soton.ac.uk/id/eprint/414304
PURE UUID: 32f35ea6-4700-4202-81b7-d4ecb88474b5
ORCID for H. Lewis: ORCID iD orcid.org/0000-0002-3946-8757

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Date deposited: 26 Sep 2017 16:30
Last modified: 16 Mar 2024 02:55

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Contributors

Author: A. Rossi
Author: E.M. Alessi
Author: G.B. Valsecchi
Author: H. Lewis ORCID iD
Author: J. Radtke
Author: C. Bombardelli
Author: B. Bastida Virgili
Editor: T. Flohrer
Editor: F. Schmitz

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