Conventional spacecraft Guidance, Navigation, and Control (GNC) architectures have been designed to receive and execute commands from ground control with minimal automation and autonomy onboard spacecraft. In contrast, Artificial Intelligence (AI)-based systems can allow real-time decision-making by considering system information that is difficult to model and incorporate in the conventional decision-making process involving ground control or human operators. With growing interests in on-orbit services with manipulation, the conventional GNC faces numerous challenges in adapting to a wide range of possible scenarios, such as removing unknown debris, potentially addressed using emerging AI-enabled robotic technologies. However, a complete pa...
Future space missions will require various technological advancements to meet more stringent and cha...
Space and space-exploration have always provided mankind with a sense of mystery and aura. In the pu...
This paper provides a method for dynamic simulation and target vehicle detection of the CubeSat spac...
Space robotic missions with increased levels of autonomy are being pursued in wide-array of orbital ...
Due to the steadily increasing quantity of debris in orbit, active debris removal is widely conside...
The growing interest in Artificial Intelligence is pervading several domains of technology and robot...
Autonomous robotic systems are currently being addressed as a critical element in the development of...
Autonomous robotic systems are currently being addressed as a critical element in the development of...
Orbital debris removal and On-orbit Servicing, Assembly and Manufacturing [OSAM] are the main areas ...
Classical control methods require deep analytical understanding of the system to be successfully con...
204 pagesAutonomous navigation is a critical component of any exploratory mission. Implementing mach...
We present a cognitively-controlled vision system that combines low-level object recognition and tra...
To accomplish more ambitious scientific goals of interplanetary nanosatellite missions, a certain se...
Abstract. We present a cognitively-controlled vision system that combines low-level object recogniti...
In recent years, there is an increasing demand for orbital robotic missions for various reasons such...
Future space missions will require various technological advancements to meet more stringent and cha...
Space and space-exploration have always provided mankind with a sense of mystery and aura. In the pu...
This paper provides a method for dynamic simulation and target vehicle detection of the CubeSat spac...
Space robotic missions with increased levels of autonomy are being pursued in wide-array of orbital ...
Due to the steadily increasing quantity of debris in orbit, active debris removal is widely conside...
The growing interest in Artificial Intelligence is pervading several domains of technology and robot...
Autonomous robotic systems are currently being addressed as a critical element in the development of...
Autonomous robotic systems are currently being addressed as a critical element in the development of...
Orbital debris removal and On-orbit Servicing, Assembly and Manufacturing [OSAM] are the main areas ...
Classical control methods require deep analytical understanding of the system to be successfully con...
204 pagesAutonomous navigation is a critical component of any exploratory mission. Implementing mach...
We present a cognitively-controlled vision system that combines low-level object recognition and tra...
To accomplish more ambitious scientific goals of interplanetary nanosatellite missions, a certain se...
Abstract. We present a cognitively-controlled vision system that combines low-level object recogniti...
In recent years, there is an increasing demand for orbital robotic missions for various reasons such...
Future space missions will require various technological advancements to meet more stringent and cha...
Space and space-exploration have always provided mankind with a sense of mystery and aura. In the pu...
This paper provides a method for dynamic simulation and target vehicle detection of the CubeSat spac...