Small perturbations on artificial satellites as an inverse problem

Author

Zadunaisky, Pedro E.

Author_Institution

Departamento de Matematica, Ciudad Universitaria, Buenos Aires, Argentina

Volume

39

Issue

4

fYear

2003

Firstpage

1270

Lastpage

1276

Abstract

The geocentric motion of a satellite is mathematically simulated by a system of second order ordinary differential equations involving two perturbing functions. The first one represents the second term of the gravitational potential of the Earth and the second is due to the atmospheric drag. Assuming that the solutions of the differential equations and their first derivatives are known from measurements, a stepwise computation of the perturbations is made through a deterministic method. Two examples illustrate our method. In a real case our method should help to design an appropriate maneuver to correct the motion of a satellite.

Keywords

artificial satellites; differential equations; inverse problems; perturbation techniques; Earth gravitational potential; artificial satellite; atmospheric drag; deterministic method; geocentric motion; inverse problem; satellite motion; second order ordinary differential equation; small perturbation; stepwise computation; Aerodynamics; Artificial satellites; Atmospheric measurements; Atmospheric modeling; Differential equations; Earth; Integral equations; Inverse problems; Measurement errors; Taylor series;

fLanguage

English

Journal_Title

Aerospace and Electronic Systems, IEEE Transactions on

Publisher

ieee

ISSN

0018-9251

Type

jour

DOI

10.1109/TAES.2003.1261127

Filename

1261127