An integrated system composed of guidance, navigation and control (GNC) system for autonomous proximity operations and the docking of two spacecraft was developed. The position maneuvers were determined through the integration of the state-dependent Riccati equation formulated from nonlinear relative motion dynamics and relative navigation using rendezvous laser vision (Lidar) and a vision sensor system. In the vision sensor system, a switch between sensors was made along the approach phase in order to provide continuously effective navigation. As an extension of the rendezvous laser vision system, an automated terminal guidance scheme based on the Clohessy-Wiltshire state transition matrix was used to formulate a V-bar hopping approach r...
Abstract: Autonomous rendezvous and proximity operations between a chaser (or pursuer) spacecraft an...
IR&D efforts in recent years have focused on effective means of performing automated rendezvous and ...
Growing interest has been lately put into proximity operations with non-cooperative targets, such as...
An integrated system composed of guidance, navigation and control (GNC) system for autonomous proxim...
This study develops an integrated guidance, navigation and control system for use in autonomous prox...
This study develops an integrated guidance, navigation and control system for use in autonomous prox...
The Rendezvous and Docking (RVD) mission is one of the most complex and interesting space missions....
In this paper, the development of guidance, navigation, and control algorithms of an autonomous spac...
Docking is one of the crucial key elements in many aerospace applications and missions where despite...
In this paper, the development of relative navigation, guidance, and control algorithms of an autono...
This paper proposes optimal control techniques for determining translational and rotational maneuver...
Autonomous rendezvous and proximity operations between a chaser spacecraft and a target space object...
Guidance, navigation and control system for autonomous proximity operations and docking of spacecraf
This paper describe schemes for onboard relative position and attitude estimation and control for th...
Noncooperative target spacecrafts are those assets in orbit that cannot convey any information about...
Abstract: Autonomous rendezvous and proximity operations between a chaser (or pursuer) spacecraft an...
IR&D efforts in recent years have focused on effective means of performing automated rendezvous and ...
Growing interest has been lately put into proximity operations with non-cooperative targets, such as...
An integrated system composed of guidance, navigation and control (GNC) system for autonomous proxim...
This study develops an integrated guidance, navigation and control system for use in autonomous prox...
This study develops an integrated guidance, navigation and control system for use in autonomous prox...
The Rendezvous and Docking (RVD) mission is one of the most complex and interesting space missions....
In this paper, the development of guidance, navigation, and control algorithms of an autonomous spac...
Docking is one of the crucial key elements in many aerospace applications and missions where despite...
In this paper, the development of relative navigation, guidance, and control algorithms of an autono...
This paper proposes optimal control techniques for determining translational and rotational maneuver...
Autonomous rendezvous and proximity operations between a chaser spacecraft and a target space object...
Guidance, navigation and control system for autonomous proximity operations and docking of spacecraf
This paper describe schemes for onboard relative position and attitude estimation and control for th...
Noncooperative target spacecrafts are those assets in orbit that cannot convey any information about...
Abstract: Autonomous rendezvous and proximity operations between a chaser (or pursuer) spacecraft an...
IR&D efforts in recent years have focused on effective means of performing automated rendezvous and ...
Growing interest has been lately put into proximity operations with non-cooperative targets, such as...