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Displaying 1—10 of 1000 matches for query "EXPLORER_XVII" retrieved in 0.002 sec with these stats:
- "explor" found 9677 times in 4300 documents
- "xvii" found 34 times in 21 documents
Image:Explorer17.jpg 200px
Explorer XVII satellite
Category:Spacecraft
... . It, therefore, is essential that a sustainable exploration program should allocate funds from the onset to develop an efficient operational exploration system. Mars and beyond exploration requires new techniques and organizational methods due ... , 2004
(2) Richard E. Eckelkamp and David J. Korsmeyer, "Capability 9.1 Exploration", Human Exploration and Mobility Capability Roadmap Team, Exploration Subteam Report to the National Research Council, March 29, 2005
(3) David ...
... what is beyond the next horizon. Pioneers and settlers follow the explorers; attracted by the opportunities for economic gain revealed by exploration, they put down roots to establish new communities on the ... lunar infrastructure?
'''References'''
Aldridge Commission (2004) President's Commission on Implementation of United States Space Exploration Policy (2004), Report: A Journey to Inspire, Innovate and Discover," June 2004, Retrieved from http ...
... is rooted in the following precepts:
Humans are genetically disposed to explore and to find new ways to survive;
Space exploration, habitation and utilization by and for Earth's humanity will be ... public with the experiences that capitalize on the excitement of United States' unique aerospace research, exploration, and discovery environment.
Each year, the Space Grant programs involve over 500 Colleges/Universities, provide ...
... Society for Volume 59 59
'''Page ''' - 43-47
'''Year''' - 2006
'''Keywords''' - Robotic space exploration, human space exploration, deep space exploration, artificial intelligence
'''JBIS Reference Code ''' - 2006.59.43
'''Number of Pages''' - 5
Abstract ... artificial intelligence. While addressing these questions, with the possibilities that the limitations to long range exploration will come from the lack of suitable robots, the identification of enabling technologies that will ...
... Interplanetary Society for Volume 62 62
'''Page ''' - 82-88
'''Year''' - 2009
'''Keywords''' - Fermi paradox, SETI, exploration probes, intelligent life, interstellar travel
'''JBIS Reference Code ''' - 2009.62.82
'''Number of Pages''' - 7 ... a certain time window. This argument is tackled in this work in the context of exploration probes, whose propagation can be faster than that of a colonization wavefront. Extensive computational simulations ...
... the British Interplanetary Society for Volume 61 61
'''Page ''' - 487-498
'''Year''' - 2008
'''Keywords''' - Surface exploration, campaign optimization, Mars, ISRU, orbiting depot
'''JBIS Reference Code ''' - 2008.61.487
'''Number of Pages''' - 12
Abstract
As the scale of space exploration increases, planning of planetary surface exploration becomes more complex and campaign- level optimization becomes necessary. This is a challenging ...
... for Volume 64 64
'''Page ''' - 304-313
'''Year''' - 2011
'''Keywords''' - Mars Exploration; Human spaceflight; Telerobot; Telepresence; Communications Latency; Space Exploration
'''JBIS Reference Code ''' - 2011.64.304
'''Number of Pages''' - 10
Abstract
This ... teleoperation from orbit. This mission is a good example of Human Exploration using Real-time Robotic Operations (HERRO), an exploration strategy that refrains from sending humans to the surfaces of planets with ...
... Interplanetary Society for Volume 59 59
'''Page ''' - 204-223
'''Year''' - 2006
'''Keywords''' - ESRO, ELDO, Lunar Exploration, Comets, Mercury, Pioneer Venus Mission, Ulysses Mission
'''JBIS Reference Code ''' - 2006.59.204
'''Number of ... and Ulysses. At the same time, some European countries elected to participate to the planetary exploration programs of the superpowers, thus maturing experiences that would turn out to be useful when ...
... Program is investing in technologies that have the potential to revolutionize the robotic exploration of deep space. For robotic exploration and science missions, increased efficiencies of future propulsion systems are critical to ... previously considered impossible. Continued reliance on conventional chemical propulsion alone will not enable the robust exploration of deep space. The maximum theoretical efficiencies have almost been reached and are insufficient to ...
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