Add to ORKGThe purpose of the Human Exploration Tele robotics 2 (HET2) project is to mature telerobotics technology to increase the performance, reduce the cost, and improve the success of human space exploration. To do this, HET2 will develop a new robot, the Astrobee free-flying robot, and mature Robonaut 2 to offload routine and repetitive work from astronauts and extend and enhance crew capabilities. HET2 will test these robots in laboratories on the ground and on the International Space Station (ISS)
The Robonaut 2 (R2) platform, as shown in Figure 1, was designed through a collaboration between NAS...
Presentation that describes possible uses of free-flying robots on-board human spacecraft during lon...
The Flight Telerobotic Servicer (FTS), a multiple arm dexterous manipulation system, will aid in the...
Astrobee will be a free-flying robot that can be remotely operated by astronauts in space or by miss...
2015 mid-year review charts of the Human Exploration Telerobotics 2 project that describe the Astrob...
Since 2010, the European Space Agency (ESA) and the National Aeronautics and Space Administration (N...
Astrobee will help prove out the concept of Caretaker Robots for future exploration architectures (L...
The Astrobees are next-generation free-flying robots that will operate in the interior of the Intern...
Robonaut 2, or R2, arrived on the International Space Station in February 2011 and is currently unde...
Alternatives to the exploration of Mars by direct human presence are under consideration by both the...
The definition of a variety of assembly, servicing, and maintenance missions has led to the generati...
This presentation summarizes NASA's future plans and current technology programs for telerobotics an...
The Robonaut project has been conducting research in robotics technology on board the International ...
In January 2004, NASA began a bold enterprise to return to the Moon, and with the technologies and e...
New opportunities for the application of telerobotic systems to enhance human intelligence and dexte...
The Robonaut 2 (R2) platform, as shown in Figure 1, was designed through a collaboration between NAS...
Presentation that describes possible uses of free-flying robots on-board human spacecraft during lon...
The Flight Telerobotic Servicer (FTS), a multiple arm dexterous manipulation system, will aid in the...
Astrobee will be a free-flying robot that can be remotely operated by astronauts in space or by miss...
2015 mid-year review charts of the Human Exploration Telerobotics 2 project that describe the Astrob...
Since 2010, the European Space Agency (ESA) and the National Aeronautics and Space Administration (N...
Astrobee will help prove out the concept of Caretaker Robots for future exploration architectures (L...
The Astrobees are next-generation free-flying robots that will operate in the interior of the Intern...
Robonaut 2, or R2, arrived on the International Space Station in February 2011 and is currently unde...
Alternatives to the exploration of Mars by direct human presence are under consideration by both the...
The definition of a variety of assembly, servicing, and maintenance missions has led to the generati...
This presentation summarizes NASA's future plans and current technology programs for telerobotics an...
The Robonaut project has been conducting research in robotics technology on board the International ...
In January 2004, NASA began a bold enterprise to return to the Moon, and with the technologies and e...
New opportunities for the application of telerobotic systems to enhance human intelligence and dexte...
The Robonaut 2 (R2) platform, as shown in Figure 1, was designed through a collaboration between NAS...
Presentation that describes possible uses of free-flying robots on-board human spacecraft during lon...
The Flight Telerobotic Servicer (FTS), a multiple arm dexterous manipulation system, will aid in the...