In the frame of the ESA Aurora exploration program the precision landing on Mars and Moon is of strategic importance because the ability to land on sites with high scientific interest is not a straightforward task. From here the need to provide a dedicated test facility able to test GNC techniques and technologies, both vision and LIDAR based, in a realistic environment, in real time and as much as possible in a real scale. This is a fundamental step through which the planetary exploration will pass through in order to reduce the inherent risks associated to any landing mission. The ESA project named Precision Landing GNC Test Facility (PLGTF) has been conceived with this purpose, has been successfully started and at the time of writing of ...
This paper presents the project and setup activities of a new test facility for autonomous optical n...
Precise landing on planets, moons and other larger celestial bodies requires powered descent, hoveri...
Computer vision technology is being developed by ESA to support the navigation and autonomous landin...
In the frame of the ESA Aurora exploration program the precision landing on Mars and Moon is of stra...
In the frame of the ESA Aurora exploration program, the precision landing on Mars and Moon is of str...
In the frame of the ESA Aurora exploration program, the precision landing on Mars and Moon is of str...
In the frame of the ESA Aurora exploration program, the precision landing on Mars and Moon is of str...
In the frame of the ESA Aurora exploration program the precision landing on Mars and Moon is of stra...
This presentation was part of the session : Ongoing and Proposed EDL Technology DevelopmentSixth Int...
The European Space Agency (ESA) and the German Aerospace Centre (DLR) are actively preparing for hum...
After ExoMars in 2016 and 2018, future ESA missions to Mars, the Moon, or asteroids will require saf...
This paper presents the project and setup activities of a new test facility for autonomous optical n...
This paper presents the design and testing activities of a new experimental facility currently under...
This paper presents the project and setup activities of a new test facility for autonomous optical n...
Precise landing on planets, moons and other larger celestial bodies requires powered descent, hoveri...
Computer vision technology is being developed by ESA to support the navigation and autonomous landin...
In the frame of the ESA Aurora exploration program the precision landing on Mars and Moon is of stra...
In the frame of the ESA Aurora exploration program, the precision landing on Mars and Moon is of str...
In the frame of the ESA Aurora exploration program, the precision landing on Mars and Moon is of str...
In the frame of the ESA Aurora exploration program, the precision landing on Mars and Moon is of str...
In the frame of the ESA Aurora exploration program the precision landing on Mars and Moon is of stra...
This presentation was part of the session : Ongoing and Proposed EDL Technology DevelopmentSixth Int...
The European Space Agency (ESA) and the German Aerospace Centre (DLR) are actively preparing for hum...
After ExoMars in 2016 and 2018, future ESA missions to Mars, the Moon, or asteroids will require saf...
This paper presents the project and setup activities of a new test facility for autonomous optical n...
This paper presents the design and testing activities of a new experimental facility currently under...
This paper presents the project and setup activities of a new test facility for autonomous optical n...
Precise landing on planets, moons and other larger celestial bodies requires powered descent, hoveri...
Computer vision technology is being developed by ESA to support the navigation and autonomous landin...
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