In-Flight Inertia Matrix Estimation of a Gyroless Satellite

C. Nainer; H. Garnier; M. Gilson; H. Evain; C. Pittet

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CEAS EuroGNC 2019

In-Flight Inertia Matrix Estimation of a Gyroless Satellite

C. Nainer	Université de Lorraine, CNRS, CRAN, Nancy, France and CNES, Toulouse, France
H. Garnier	Université de Lorraine, CNRS, CRAN, Nancy, France
M. Gilson	Université de Lorraine, CNRS, CRAN, Nancy, France
H. Evain	CNES, Toulouse, France
C. Pittet	CNES, Toulouse, France

Abstract:
Knowledge of the inertia parameters is vital to guarantee a correct attitude control of a spacecraft. The relatively low accuracy of their estimate prior to launch, together with possible changes of these quantities, make the in-orbit inertia estimation a problem of great interest. In this work, the estimation of the inertia matrix for a gyroless satellite is considered. An iterative instrumental variable algorithm is proposed that relies on the star tracker measurements. A semi-adaptive filter is designed in order to achieve low variance estimates, by taking care of both sensor noise and torque disturbances. The performance of the proposed algorithm is then analyzed via Monte Carlo simulations, using data generated from a high-fidelity simulator.

Keywords: Parameter estimation; Spacecraft attitude control

View PDF CEAS-GNC-2019-024

C. Nainer, H. Garnier, M. Gilson, H. Evain, C. Pittet: In-Flight Inertia Matrix Estimation of a Gyroless Satellite. Proceedings of the 2019 CEAS EuroGNC conference. Milan, Italy. April 2019. CEAS-GNC-2019-024.

BibTeX entry:

@Incollection{CEAS-GNC-2019-024,

    authors = {Nainer, C. and Garnier, H. and Gilson, M. and Evain, H. and Pittet, C.},

    title = {In-Flight Inertia Matrix Estimation of a Gyroless Satellite},

    booktitle = {Proceedings of the 2019 {CEAS EuroGNC} conference},

    address = {Milan, Italy},

    month = apr,

    year = {2019},

    note = {CEAS-GNC-2019-024}

}