Parametric Analysis of TLI Delta-V Lunar Transfer

Parametric Analysis of Minimum TLI Delta-V Lunar Transfer Trajectories
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Updated 29 Nov 2023

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PDF document and a MATLAB script called tli_sweep_snopt that can be used to perform a parametric analysis of lunar transfer trajectories. The software assumes that trans-lunar injection (TLI) occurs impulsively from a circular Earth park orbit. The software solves for the minimum TLI delta-v using a two-body Lambert solution for the transfer trajectory from the Earth park orbit to the center of the moon.
This computer program uses the SNOPT nonlinear programming (NLP) method to solve this classic trajectory optimization problem. The lunar coordinates required by the software are computed using the JPL DE430 ephemeris.

Cite As

David Eagle (2024). Parametric Analysis of TLI Delta-V Lunar Transfer (https://www.mathworks.com/matlabcentral/fileexchange/39445-parametric-analysis-of-tli-delta-v-lunar-transfer), MATLAB Central File Exchange. Retrieved .

MATLAB Release Compatibility
Created with R2012b
Compatible with any release
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Version Published Release Notes
1.5.0.0

Code updated to handle the case where is the absolute value of the lunar declination at encounter is larger than the orbital inclination of the park/transfer orbit.

1.4.0.0

Added park orbit TLI true anomaly and RAAN control variables to perturbed motion optimization. Updated PDF documentation.

1.3.0.0

Add version of main script file (tli_sweep_64bit) that uses the March 17, 2014 64 bit version of SNOPT.

1.2.0.0

Added option to solve the problem using "perturbed" orbital motion. Updated PDF document.

1.1.0.0

MICE version contained in tli_sweep_mice.zip archive.

1.0.0.0