The problem of achieving pinpoint landing accuracy in future space missions to extra-terrestrial bodies such as the Moon or Mars presents many challenges, including the requirements of higher accuracy and more flexibility. These new challenges may require the development of novel and more advanced guidance algorithms. Conventional guidance schemes, which generally require a combination of off-line trajectory generation and real-time, trajectory tracking algorithms, have worked well in the past but may not satisfy the more stringent and difficult landing requirements imposed by future mission architectures to bring landers very near to specified locations. In this paper, a novel non-linear guidance algorithm for planetary landing is proposed...
A near-optimal feedback guidance algorithm is applied to several different applications in the Circu...
This research considers the descent path of a space vehicle, from periselenium of its operational or...
textCurrent renewed interest in exploration of the moon, Mars, and other planetary objects is drivin...
The problem of achieving pinpoint landing accuracy in future space missions to extra-terrestrial bod...
The problem of achieving pinpoint landing accuracy in future space missions to planetary bodies such...
This work focuses on the analysis and application of various nonlinear, autonomous guidance algorith...
© 2020 COSPAR This work develops a deep reinforcement learning based approach for Six Degree-of-Free...
In this paper, we discuss non-linear methodologies that can be employed to devise real-time algorith...
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 ...
A novel non-linear spacecraft guidance scheme utilizing a hybrid controller for pinpoint lunar landi...
In this paper, the Multiple Sliding Surface Guidance (MSSG) algorithm has been implemented and simul...
Precision landing on large and small planetary bodies is a technology of utmost importance for futur...
Future missions to the Moon and Mars will require advanced guidance navigation and control algorithm...
This research considers the descent path of a space vehicle, from periselenium of its operational or...
A near-optimal feedback guidance algorithm is applied to several different applications in the Circu...
This research considers the descent path of a space vehicle, from periselenium of its operational or...
textCurrent renewed interest in exploration of the moon, Mars, and other planetary objects is drivin...
The problem of achieving pinpoint landing accuracy in future space missions to extra-terrestrial bod...
The problem of achieving pinpoint landing accuracy in future space missions to planetary bodies such...
This work focuses on the analysis and application of various nonlinear, autonomous guidance algorith...
© 2020 COSPAR This work develops a deep reinforcement learning based approach for Six Degree-of-Free...
In this paper, we discuss non-linear methodologies that can be employed to devise real-time algorith...
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 ...
A novel non-linear spacecraft guidance scheme utilizing a hybrid controller for pinpoint lunar landi...
In this paper, the Multiple Sliding Surface Guidance (MSSG) algorithm has been implemented and simul...
Precision landing on large and small planetary bodies is a technology of utmost importance for futur...
Future missions to the Moon and Mars will require advanced guidance navigation and control algorithm...
This research considers the descent path of a space vehicle, from periselenium of its operational or...
A near-optimal feedback guidance algorithm is applied to several different applications in the Circu...
This research considers the descent path of a space vehicle, from periselenium of its operational or...
textCurrent renewed interest in exploration of the moon, Mars, and other planetary objects is drivin...