W
Wang, Kun
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Fuel-Optimal Trajectory Planning for Lunar Vertical Landing

Abstract

In this paper we consider a trajectory planning problem arising from a lunar vertical landing with minimum fuel consumption. The vertical landing requirement is written as a final steering angle constraint, and a nonnegative regularization term is proposed to modify the cost functional. In this way, the final steering angle constraint will be inherently satisfied according to Pontryagin's Minimum Principle. As a result, the modified optimal steering angle has to be determined by solving a transcendental equation. To this end, a transforming procedure is employed, which allows for finding the desired optimal steering angle by a simple bisection method. Consequently, the vertical landing trajectory can be found offline by the indirect shooting method. Finally, some numerical examples are presented to demonstrate and verify the developments of the paper.

article Article
date_range 2024
language English
link Link of the paper
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W
Wang Kun
C
Chen Zheng
L
Li Jun
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Featured Keywords
Lunar exploration
vertical soft landing
final control constraint
trajectory optimization
indirect shooting method
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