2006
DOI: 10.1016/j.asr.2004.11.033
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An aerobot for global in situ exploration of Titan

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Cited by 26 publications
(11 citation statements)
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“…Downlink bandwidth is expected to be 4,500 bits per second, or 130 Mbits per day assuming an 8 hour transmission window. 2 Autonomous methods of classifying aerial image data could preselect the most scientifi cally meaningful data for return to Earth. For example, spacecraft could transmit a representative sample of different image contents or prioritize specifi c features of interest.…”
Section: Future Mission Challengesmentioning
confidence: 99%
“…Downlink bandwidth is expected to be 4,500 bits per second, or 130 Mbits per day assuming an 8 hour transmission window. 2 Autonomous methods of classifying aerial image data could preselect the most scientifi cally meaningful data for return to Earth. For example, spacecraft could transmit a representative sample of different image contents or prioritize specifi c features of interest.…”
Section: Future Mission Challengesmentioning
confidence: 99%
“…Friedlander [32]. Studies [33][34][35][36][37][38] of Titan Montgolfière carried over the years can be found in the literature.…”
Section: Balloons For Exploring Titanmentioning
confidence: 99%
“…The above results strongly suggest jettisoning the gas tank after deployment and inflation of a blimp/balloon in the martian atmosphere and to possibly maintain a smaller tank for altitude changes and gas replenishment for the duration of the mission. An exploration of Titan with airships (e.g., [23]) is an ideal scenario for a tier-scalable mission in conjunction with an orbiter and ground-probing agents, because of the 1.5 times thicker atmosphere compared to Earth and the colder temperatures compared to Venus' surface and near-surface atmospheric temperatures.…”
Section: Tier-scalable Reconnaissance -Operational Control and Techmentioning
confidence: 99%
“…They are (1) simple in structure; (2) light-weight; (3) "easily" deployable (e.g., [22]), both in mid-air and from the surface; (4) buoyant without the need for propellant, (5) could operate without active flight control system (e.g., wind-driven), and (6) allow for extended mission durations, ranging from months to more than a year (e.g., [23]) and for repeated surface/subsurface sampling. Furthermore, equipped with either solar cells/batteries or RTGs, they can be electrically operated to support onboard instruments, data analysis capabilities, and active thrusting.…”
Section: Tier-scalable Reconnaissance -Operational Control and Techmentioning
confidence: 99%