Accuracy Analysis of Lunar Lander Terminal Guidance Algorithm

<p>This article studies a proposed analytical algorithm of the terminal guidance for the lunar lander. The analytical solution, which forms the basis of the algorithm, was obtained for a constant acceleration trajectory and thrust vector orientation programs that are essentially linear with ti...

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Main Authors: E. K. Li, A. V. Fomichev
Format: Article
Language:Russian
Published: MGTU im. N.È. Baumana 2017-01-01
Series:Nauka i Obrazovanie
Subjects:
Online Access:http://technomag.edu.ru/jour/article/view/957
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spelling doaj-5b6b672975cc43cda58541f495bed8222020-11-24T23:22:18ZrusMGTU im. N.È. BaumanaNauka i Obrazovanie1994-04082017-01-010411312810.7463/0417.00009571068Accuracy Analysis of Lunar Lander Terminal Guidance AlgorithmE. K. Li0A. V. Fomichev1Bauman Moscow State Technical UniversityBauman Moscow State Technical University<p>This article studies a proposed analytical algorithm of the terminal guidance for the lunar lander. The analytical solution, which forms the basis of the algorithm, was obtained for a constant acceleration trajectory and thrust vector orientation programs that are essentially linear with time. The main feature of the proposed algorithm is a completely analytical solution to provide the lander terminal guidance to the desired spot in 3D space when landing on the atmosphereless body with no numerical procedures. To reach 6 terminal conditions (components of position and velocity vectors at the final time) are used 6 guidance law parameters, namely time-to-go, desired value of braking deceleration, initial values of pitch and yaw angles and rates of their change. In accordance with the principle of flexible trajectories, this algorithm assumes the implementation of a regularly updated control program that ensures reaching terminal conditions from the current state that corresponds to the control program update time. The guidance law parameters, which ensure that terminal conditions are reached, are generated as a function of the current phase coordinates of a lander. The article examines an accuracy and reliability of the proposed analytical algorithm that provides the terminal guidance of the lander in 3D space through mathematical modeling of the lander guidance from the circumlunar pre-landing orbit to the desired spot near the lunar surface. A desired terminal position of the lunar lander is specified by the selenographic latitude, longitude and altitude above the lunar surface. The impact of variations in orbital parameters on the terminal guidance accuracy has been studied. By varying the five initial orbit parameters (obliquity, ascending node longitude, argument of periapsis, periapsis height, apoapsis height) when the terminal spot is fixed the statistic characteristics of the terminal guidance algorithm error according to the terminal position and velocity have been estimated.</p>http://technomag.edu.ru/jour/article/view/957lunar pinpoint landingterminal guidancelander guidance and controlguidance algorithm accuracy analysis
collection DOAJ
language Russian
format Article
sources DOAJ
author E. K. Li
A. V. Fomichev
spellingShingle E. K. Li
A. V. Fomichev
Accuracy Analysis of Lunar Lander Terminal Guidance Algorithm
Nauka i Obrazovanie
lunar pinpoint landing
terminal guidance
lander guidance and control
guidance algorithm accuracy analysis
author_facet E. K. Li
A. V. Fomichev
author_sort E. K. Li
title Accuracy Analysis of Lunar Lander Terminal Guidance Algorithm
title_short Accuracy Analysis of Lunar Lander Terminal Guidance Algorithm
title_full Accuracy Analysis of Lunar Lander Terminal Guidance Algorithm
title_fullStr Accuracy Analysis of Lunar Lander Terminal Guidance Algorithm
title_full_unstemmed Accuracy Analysis of Lunar Lander Terminal Guidance Algorithm
title_sort accuracy analysis of lunar lander terminal guidance algorithm
publisher MGTU im. N.È. Baumana
series Nauka i Obrazovanie
issn 1994-0408
publishDate 2017-01-01
description <p>This article studies a proposed analytical algorithm of the terminal guidance for the lunar lander. The analytical solution, which forms the basis of the algorithm, was obtained for a constant acceleration trajectory and thrust vector orientation programs that are essentially linear with time. The main feature of the proposed algorithm is a completely analytical solution to provide the lander terminal guidance to the desired spot in 3D space when landing on the atmosphereless body with no numerical procedures. To reach 6 terminal conditions (components of position and velocity vectors at the final time) are used 6 guidance law parameters, namely time-to-go, desired value of braking deceleration, initial values of pitch and yaw angles and rates of their change. In accordance with the principle of flexible trajectories, this algorithm assumes the implementation of a regularly updated control program that ensures reaching terminal conditions from the current state that corresponds to the control program update time. The guidance law parameters, which ensure that terminal conditions are reached, are generated as a function of the current phase coordinates of a lander. The article examines an accuracy and reliability of the proposed analytical algorithm that provides the terminal guidance of the lander in 3D space through mathematical modeling of the lander guidance from the circumlunar pre-landing orbit to the desired spot near the lunar surface. A desired terminal position of the lunar lander is specified by the selenographic latitude, longitude and altitude above the lunar surface. The impact of variations in orbital parameters on the terminal guidance accuracy has been studied. By varying the five initial orbit parameters (obliquity, ascending node longitude, argument of periapsis, periapsis height, apoapsis height) when the terminal spot is fixed the statistic characteristics of the terminal guidance algorithm error according to the terminal position and velocity have been estimated.</p>
topic lunar pinpoint landing
terminal guidance
lander guidance and control
guidance algorithm accuracy analysis
url http://technomag.edu.ru/jour/article/view/957
work_keys_str_mv AT ekli accuracyanalysisoflunarlanderterminalguidancealgorithm
AT avfomichev accuracyanalysisoflunarlanderterminalguidancealgorithm
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