Add to ORKGA robotic system able to reach, capture and, if necessary, detumble a space target is a key technology required to carry out future in-orbit operations, such as On-Orbit Servicing (OOS) and Active Debris Removal (ADR). These mission scenarios involve complex technical challenges which can be addressed improving robustness and autonomy of Guidance, Navigation and Control functions. In this framework, this paper presents a research activity, conducted by a consortium of three Italian Universities under contract with the European Space Agency (ESA), aimed at development of algorithmic solutions for (i) combined control of a chaser equipped with a highly dexterous robotic arm, and (ii) target-chaser relative navigation exploiting Electro-Optica...
This paper presents a robotic capture concept for large spacecraft in low Earth orbit (LEO) that was...
Optical navigation for guidance and control of robotic systems is a well-established technique from ...
This paper presents a vision guidance and control method for autonomous robotic capture and stabiliz...
The potentialities of In-Orbit Servicing (IOS) to extend the operational life of satellites and the ...
This paper deals with the problem of designing relative trajectories in Earth orbit between an activ...
The interest of the space community toward missions like On-Orbit Servicing of functional satellite ...
Recent studies of the space debris population in Low Earth Orbit (LEO) have concluded that certain r...
Performing rendezvous in close-proximity of a non-cooperative target is a challenging task, especial...
This paper presents an innovative approach to design relative trajectories suitable for close-proxim...
The growing satellite congestion in the Earth orbits increases the risk of Kessler Syndrome, that co...
This paper presents a robotic capture concept that was developed as part of the e.deorbit study by E...
This paper tackles the problem of spacecraft relative navigation to support the reach and capture of...
This work discusses the controller design and simulation for Active Debris Removal (ADR) based on t...
This paper presents a robotic capture concept that was developed as part of the e.deorbit study by ...
Abstract: Autonomous rendezvous and proximity operations between a chaser (or pursuer) spacecraft an...
This paper presents a robotic capture concept for large spacecraft in low Earth orbit (LEO) that was...
Optical navigation for guidance and control of robotic systems is a well-established technique from ...
This paper presents a vision guidance and control method for autonomous robotic capture and stabiliz...
The potentialities of In-Orbit Servicing (IOS) to extend the operational life of satellites and the ...
This paper deals with the problem of designing relative trajectories in Earth orbit between an activ...
The interest of the space community toward missions like On-Orbit Servicing of functional satellite ...
Recent studies of the space debris population in Low Earth Orbit (LEO) have concluded that certain r...
Performing rendezvous in close-proximity of a non-cooperative target is a challenging task, especial...
This paper presents an innovative approach to design relative trajectories suitable for close-proxim...
The growing satellite congestion in the Earth orbits increases the risk of Kessler Syndrome, that co...
This paper presents a robotic capture concept that was developed as part of the e.deorbit study by E...
This paper tackles the problem of spacecraft relative navigation to support the reach and capture of...
This work discusses the controller design and simulation for Active Debris Removal (ADR) based on t...
This paper presents a robotic capture concept that was developed as part of the e.deorbit study by ...
Abstract: Autonomous rendezvous and proximity operations between a chaser (or pursuer) spacecraft an...
This paper presents a robotic capture concept for large spacecraft in low Earth orbit (LEO) that was...
Optical navigation for guidance and control of robotic systems is a well-established technique from ...
This paper presents a vision guidance and control method for autonomous robotic capture and stabiliz...