Astronomy and Astrophysics – Astronomy
Scientific paper
Oct 1984
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1984laus.iafcs....h&link_type=abstract
International Astronautical Federation, International Astronautical Congress, 35th, Lausanne, Switzerland, Oct. 7-13, 1984. 22 p
Astronomy and Astrophysics
Astronomy
Computerized Simulation, Orbit Calculation, Orbital Elements, Program Verification (Computers), Satellite Orbits, Symbolic Programming, Algebra, Error Analysis, High Level Languages, Lunar Orbits, Numerical Integration, Orbit Perturbation, Planetary Orbits, Recursive Functions, Run Time (Computers)
Scientific paper
A method for deriving a first-order nonsingular analytical orbit predictor applicable to lunar and planetary orbiters is presented which is based on the use of the stroboscopic method and a computerized algebraic utility, MACSYMA. In particular, the MACSYMA utility is used to produce canonical decompositions of the first-order increments of the orbital elements and the time over one revolution for a satellite whose motion is perturbed by some conservative accelerations. The expressions are successfully verified against numerical integration.
Boissieres J.
Haziza M.
Zeis E.
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