Model-based autonomy in deep space missions
نویسندگان
چکیده
منابع مشابه
Autonomy in Future Space Missions
NASA missions are becoming more complicated due to the decreasing cost of spacecraft; the increased sensitivity and data gather capability of onboard instruments, and the need to use multiple spacecraft to accomplish new science. To accommodate these new missions current ground and space operations will need to use new paradigms to implement these new missions while keeping costs and logistics ...
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As a member of the United Nations Committee on the Peaceful Uses of Outer Space (COPUOS), Iran has a long-term space exploration program. Space radiation is one of the challenges facing humans when they go outside Earth's protective atmosphere and magnetic field. Space is an environment that the cardinal principles of radiation protection i.e. time, distance and shielding cannot be effectively ...
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Autonomous navigation (AutoNav) for deep space missions is a unique capability that was developed at JPL and used successfully for every camera-equipped comet encounter flown by NASA (Borrelly, Wild 2, Tempel 1, and Hartley 2), as well as an asteroid flyby (Annefrank). AutoNav is the first on-board software to perform autonomous interplanetary navigation (image processing, trajectory determinat...
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Future international deep-space missions, such as a Gateway outpost at the Earth-Moon Libration L2 point (EML2), will require advanced robotic servicing with a very high level of autonomy. Realization of this autonomy should also increase the efficiency of ground operations and analyses by making it easier to plan and monitor operations under various mission constraints. While a great deal of r...
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Plumes from Enceladus may host high molecular weight organic materials. An orbital plume sampling mission to Enceladus would require fine orbit and attitude control to compensate for the instability of the polar orbit, if low relative velocities are required in order to preserve biomarkers of interest. On Neuromorphic Architectures for Efficient, Robust and Adaptable Autonomy in Life Detection ...
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ژورنال
عنوان ژورنال: IEEE Intelligent Systems
سال: 2003
ISSN: 1541-1672
DOI: 10.1109/mis.2003.1200721