This paper presents recent results from a mission architecture study of planetary aerial explorers. In this study, several mission scenarios were developed in simulation and evaluated on success in meeting mission goals. This aerial explorer mission architecture study is unique in comparison with previous Mars airplane research activities. The study examines how aerial vehicles can find and gain access to otherwise inaccessible terrain features of interest. The aerial explorer also engages in a high-level of (indirect) surface interaction, despite not typically being able to takeoff and land or to engage in multiple flights/sorties. To achieve this goal, a new mission paradigm is proposed: aerial explorers should be considered as an additional element in the overall Entry, Descent, Landing System (EDLS) process. Further, aerial vehicles should be considered primarily as carrier/utility platforms whose purpose is to deliver air-deployed sensors and robotic devices, or symbiotes, to those high-value terrain features of interest.
Aerial Explorers
43rd AIAA Aerospace Sciences Meeting and Exhibit ; 2005 ; Reno, NV, United States
2005-01-01
Preprint
No indication
English
British Library Conference Proceedings | 2005
|NTIS | 2005
|AIAA | 2005
|Aerial Explorers and Robotic Ecosystems
NTRS | 2004
|Aerial Explorers and Robotic Ecosystems
NTIS | 2004
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