A method is presented which finds Mars parking orbits which allow tangential periapsis burns at both arrival and departure. This method accounts for the actual geometry at both arrival and departure between the hyperbolic asymptotes and the orbital plane, along with the precession effects caused by the oblateness of Mars. Thus, realistic Delta-V values (and hence initial low-earth orbit masses) are obtained for these orbits. The results obtained from the present method compare very well with a trajectory integration program while only requiring CPU times of about one minute. Therefore, due to the computational efficiency and accuracy, the present method would be an ideal tool to use in preliminary mission design, since it provides the opportunity to incorporate realistic Mars parking orbits effects.
[1]
J. A. Mulqueen,et al.
Mars exploration, Venus swingby and conjunction class mission modes, time period 2000 to 2045
,
1984
.
[2]
Robert D. Braun,et al.
Propulsive options for a manned Mars transportation system
,
1991
.
[3]
P. R. Escobal,et al.
Methods of orbit determination
,
1976
.
[4]
Patricia A. Santy.
Manned Mars mission crew factors
,
1986
.
[5]
G. L. Brauer,et al.
Capabilities and applications of the Program to Optimize Simulated Trajectories (POST). Program summary document
,
1977
.