Ballistic Interplanetary Trajectory Optimization - OTB

Version 1.4.0 (16.2 MB) by David Eagle
Optimization Toolbox version of the MATLAB script which solves the two impulse, patched-conic interplanetary trajectory problem.
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Updated 18 May 2023

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PDF document and a MATLAB script called ipto_matlab_otb that can be used to design and optimize two impulse, “patched conic” ballistic interplanetary trajectories between any two planets of our solar system. It can also be used to find two-body trajectories between a planet and an asteroid or comet. A patched-conic trajectory ignores the gravitational effect of both the launch and arrivals planets on the heliocentric transfer trajectory. This technique involves the solution of Lambert's problem relative to the Sun. Patched-conic trajectories are suitable for preliminary mission design. This script uses the fmincon nonlinear programming (NLP) algorithm from the MATLAB Optimization Toolbox to solve this classic astrodynamics problem. The ipto_matlab_otb MATLAB script also performs a graphical primer vector analysis of the solution. This program feature displays the behavior of the primer vector magnitude and primer derivative magnitude as a function of mission elapsed time in days from departure.

Cite As

David Eagle (2024). Ballistic Interplanetary Trajectory Optimization - OTB (https://www.mathworks.com/matlabcentral/fileexchange/73513-ballistic-interplanetary-trajectory-optimization-otb), MATLAB Central File Exchange. Retrieved .

MATLAB Release Compatibility
Created with R2020a
Compatible with R2019b
Platform Compatibility
Windows macOS Linux
Categories
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Version Published Release Notes
1.4.0

Minor tweaks to the MATLAB source code, graphics updates and updated PDF user's guide.

1.3.0

Bug fix for comet/asteroid bodies

1.2.0

DE421 ephemeris

1.1.0

Updated to use the DE440s JPL ephemeris and MICE routines

1.0.0