[17] Back to the Moon; A Verification of a Small Microprocessor’s Logic Design, Hugh Blair Smith, Nasa Office of Logic
[18] The Shackleton Crater Expedition: A Lunar Commerce Mission in the Spirit of Lewis and Clark William C. Stone, Ph.D., P.E. Stone AeroSPACE / PSC, Inc.3511 Caldwell Lane Del Valle, TX 78617-3006 Email: stoneaerospace@verizon.net November 17, 2003
[19] IDEAL LANDING SITES NEAR THE LUNAR POLES. K. Fristad1, D. B. J. Bussey2, M. S. Robinson3, and P. D. Spudis2, 1Macalester College, 1600 Grand Ave, Saint Paul, MN 55105, 2The Johns Hopkins University Applied Physics Laboratory, 11100 Johns Hopkins Road, MP3-E180, Laurel MD 20723 (ben.bussey@jhuapl.edu),Northwestern University, Locy Hall 309, Evanston IL 60201.
[20] Lighting Constraints on Lunar Surface Operations NASA Technical Memorandum 4271 Dean B. Eppler Lyndon B. Johnson Space Center Houston, Texas
[21] Lunar Roving Vehicle Operations Handbook, LS006-002-2H, NASA, April 19, 1971
[22] Lunar Mobility Review, Lunar Exploration Initiative, David A. Kring/ Space Sciences, 2006
[23] VISUAL AIDS FOR LUNAR ROVER TELE-OPERATION
David P. Miller1 and Kyle Machulis2
1 University of Oklahoma, 865 Asp Ave, Rm 212, Norman OK 73019, USA; dpmiller@ou.edu
2 KISS Institute for Practical Robotics, 1818 W Lindsey, Bld D-100, Norman OK 73069, USA; kyle@kipr.org
[24] Exploration Strategies and Landing Sites at the Lunar South Pole. P.J.Stooke1, Departments of Geography and Physics and Astronomy, University of Western Ontario, London, Ontario, Canada <http://publish.uwo.ca/~pistooke/>
[25] Evans/Three Lions/Getty Images
A circa 1958 artist's impression of space travel: a Lunar Liner designed to transport people to and from the moon.
