In this paper, a novel multi-stage trajectory transfer and fixed-point landing time optimal guidance method for the lunar surface emergency rescue mission is proposed. Firstly, the whole process motion and dynamics model for the lunar surface emergency rescue with four stages are established. Then, in the initial orbit transfer phase, the Lambert algorithm based on "prediction + correction" is designed for the non spherical gravitational perturbation of the moon. In the powered descent phase, the Hamiltonian function is used to design a time suboptimal explicit guidance law that can be applied in orbit in real time. Finally, aiming at the multi-stage global time optimal guidance, the whole time process guidance law is obtained by establishi...
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...
The desire to return humans to the moon has motivated the evaluation of existing lunar descent guida...
In recent years, several countries have shown an increasing interest toward both manned and automati...
An analytical fuel sub-optimal guidance strategy is presented in this paper during the approach phas...
In this paper, we consider an optimal control problem arising from the optimal guidance of a lunar m...
The problem of real-time optimal guidance is extremely important for successful autonomous missions....
Lunar landing problem has been formulated as desensitized optimal control problem and solved by Lege...
Lunar landing problem is formulated as an optimal control problem and has been solved by Legendre Ps...
One of the main challenges posed by the next space systems generation is the high level of autonomy ...
One of the main challenges posed by the next space systems generation is the high level of autonomy ...
This work presents an algorithm for the 6-DoF guidance and control for the final descent of a Lunar ...
A fuel optimal nonlinear sub-optimal guidance scheme is presented in this paper for soft landing of ...
An algorithm for the optimization of a lunar soft-landing trajectory is presented. A 6DoF modeling o...
This research considers the descent path of a space vehicle, from periselenium of its operational or...
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...
The desire to return humans to the moon has motivated the evaluation of existing lunar descent guida...
In recent years, several countries have shown an increasing interest toward both manned and automati...
An analytical fuel sub-optimal guidance strategy is presented in this paper during the approach phas...
In this paper, we consider an optimal control problem arising from the optimal guidance of a lunar m...
The problem of real-time optimal guidance is extremely important for successful autonomous missions....
Lunar landing problem has been formulated as desensitized optimal control problem and solved by Lege...
Lunar landing problem is formulated as an optimal control problem and has been solved by Legendre Ps...
One of the main challenges posed by the next space systems generation is the high level of autonomy ...
One of the main challenges posed by the next space systems generation is the high level of autonomy ...
This work presents an algorithm for the 6-DoF guidance and control for the final descent of a Lunar ...
A fuel optimal nonlinear sub-optimal guidance scheme is presented in this paper for soft landing of ...
An algorithm for the optimization of a lunar soft-landing trajectory is presented. A 6DoF modeling o...
This research considers the descent path of a space vehicle, from periselenium of its operational or...
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...
The desire to return humans to the moon has motivated the evaluation of existing lunar descent guida...