In general, the lunar landing stage can be divided into two distinct phases: de-orbit and descent, and the descent phase usually comprises two sub-phases: braking and approach. And many optimization problems of minimal energy are usually focused on descent phases. In these approaches, the energy of de-orbit burning is not considered. Therefore, a possible low perilune altitude can be chosen to save fuel for the descent phase. Perilune altitude is typically specified between 10 and 15km because of the mountainous lunar terrain and possible guidance errors. However, it requires more de-orbit burning energy for the lower perilune altitude. Therefore, in this paper, the perilune altitude of the intermediate orbit is also considered with optimal...
A method is presented for generating and maintaining a lunar mapping orbit using continuous low-thru...
In the past few years, a new spirit for the exploration of the Solar System spread among the space c...
Direct vertical descent and descent from an intermediate<br />lunar parking orbit are discusse...
A Legendre pseudo spectral philosophy based multi-phase constrained fuel-optimal trajectory design a...
The lunar landing stage is usually divided into two parts: deorbit burn and powered descent phases. ...
The moon is recognized as an important destination for space science and exploration. To find a sati...
Lunar landing problem is formulated as an optimal control problem and has been solved by Legendre Ps...
textCurrent renewed interest in exploration of the moon, Mars, and other planetary objects is drivin...
An algorithm for the optimization of a lunar soft-landing trajectory is presented. A 6DoF modeling o...
The landing of a crewed lunar lander on the surface of the Moon will be the climax of any Moon missi...
An analytical fuel sub-optimal guidance strategy is presented in this paper during the approach phas...
An algorithm for the optimization of a lunar soft-landing trajectory is presented. A 6DoF modeling o...
Autonomous soft, safe and precise landing on celestial bodies like the Moon, planets and asteroids i...
Lunar landing problem has been formulated as desensitized optimal control problem and solved by Lege...
Modern lunar exploration plans have stimulated a renewed interest in considering the possibility of ...
A method is presented for generating and maintaining a lunar mapping orbit using continuous low-thru...
In the past few years, a new spirit for the exploration of the Solar System spread among the space c...
Direct vertical descent and descent from an intermediate<br />lunar parking orbit are discusse...
A Legendre pseudo spectral philosophy based multi-phase constrained fuel-optimal trajectory design a...
The lunar landing stage is usually divided into two parts: deorbit burn and powered descent phases. ...
The moon is recognized as an important destination for space science and exploration. To find a sati...
Lunar landing problem is formulated as an optimal control problem and has been solved by Legendre Ps...
textCurrent renewed interest in exploration of the moon, Mars, and other planetary objects is drivin...
An algorithm for the optimization of a lunar soft-landing trajectory is presented. A 6DoF modeling o...
The landing of a crewed lunar lander on the surface of the Moon will be the climax of any Moon missi...
An analytical fuel sub-optimal guidance strategy is presented in this paper during the approach phas...
An algorithm for the optimization of a lunar soft-landing trajectory is presented. A 6DoF modeling o...
Autonomous soft, safe and precise landing on celestial bodies like the Moon, planets and asteroids i...
Lunar landing problem has been formulated as desensitized optimal control problem and solved by Lege...
Modern lunar exploration plans have stimulated a renewed interest in considering the possibility of ...
A method is presented for generating and maintaining a lunar mapping orbit using continuous low-thru...
In the past few years, a new spirit for the exploration of the Solar System spread among the space c...
Direct vertical descent and descent from an intermediate<br />lunar parking orbit are discusse...