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http://dx.doi.org/10.5139/IJASS.2013.14.1.11

Dynamics of Extra-Vehicular Activities in Low-Gravity Surface Environments  

Spencer, David A. (Georgia Institute of Technology, School of Aerospace Engineering)
Gast, Matthew A. (Georgia Institute of Technology, School of Aerospace Engineering)
Publication Information
International Journal of Aeronautical and Space Sciences / v.14, no.1, 2013 , pp. 11-18 More about this Journal
Abstract
Human spaceflight experience in extra-vehicular activity (EVA) is limited to two regimes: the micro-gravity environment of Earth orbit, and the lunar surface environment at one-sixth of Earth's gravity. Future human missions to low-gravity bodies, including asteroids, comets, and the moons of Mars, will require EVA techniques that are beyond the current experience base. In order to develop robust approaches for exploring these small bodies, the dynamics associated with human exploration on low-gravity surface must be characterized. This paper examines the translational and rotational motion of an astronaut on the surface of a small body, and it is shown that the low-gravity environment will pose challenges to the surface mobility of an astronaut, unless new tools and EVA techniques are developed. Possibilities for addressing these challenges are explored, and utilization of the International Space Station to test operational concepts and hardware in preparation for a low-gravity surface EVA is discussed.
Keywords
extra-vehicular activities; spacewalk; small-body exploration; micro-gravity;
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1 Andert, T.P., Rosenblatt, P., Patzold, M., Hausler, B., Dehant, V., Tyler, G.L., Marty, J.C., "Precise mass determination and the nature of Phobos", Geophysical Research Letters, Vol. 37, Issue 9, DOI:10.1029/2009GL041829, 2010.   DOI   ScienceOn
2 Dunbar, Brian, Space Shuttle Missions, NASA, 2010, URL: http://www.nasa.gov/mission_pages/shuttle/ shuttlemissions/list_main.html.
3 Jeeverajan, A., "Man-Systems Integration Standards", Vol. 1, Section 14, NASA-STD-3000, Rev. B, Houston, TX, 1995, URL: http://msis.jsc.nasa.gov.
4 Mission Operations Branch, Flight Crew Supports Division, "Apollo 11 Technical Crew Debriefing", Vol. 1, Section 10, pp. 35-36, 1969, URL: http://history.nasa.gov/ alsj/a11/a11tecdbrf.html#OrigPDF.
5 Kauderer, A., International Space Station Imagery, Image Number S127-E-011186, NASA Human Space Flight Web Gallery, 2009, URL: http://spaceflight1.nasa.gov/ gallery/images/station.
6 Lavoie, S., Phobos, JPL/Mars Reconnaissance Orbiter, NASA Photo ID: PIA10368, NASA/JPL, Pasadena, CA, 2008, URL: http://photojournal.jpl.nasa.gov/catalog/PIA10368.
7 Linkenhous, S., Marshall Image Exchange, Reference Number MSFC-75-SA-4105-2C, MSFC Negative Number 0102497, NASA Marshall Space Flight Center, Huntsville, AL, 2001, URL: http://mix.msfc.nasa.gov.
8 Minetti, A., Biomechanics: "Walking on other planets", Nature, Vol. 409, DOI:10.1038/35054166, 2001, pp. 467-469.   DOI   ScienceOn
9 Scheeres, D.J., Hartzell, C.M., Sanchez, P., Swift, M., "Scaling forces to asteroid surfaces: the role of cohesion", Icarus, Vol. 210, Issue 2, 2010.
10 Stokes, G.H., Yeomans, D.K., Bottke, W.F., Jewitt, D., Chesley, S.R., Kelso, T.S., Evans, J.B., McMillan, R.S., Gold, R.E., Spahr, T.B., Harris, A.W., and Worden, S.P., "Study to determine the feasibility of extending the search for near- Earth objects to smaller limiting diameters", Report of the Near-Earth Object Science Definition Team, NASA, Office of Space Science, Solar System Exploration Division, Maryland, USA, 2003, URL: http://neo.jpl.nasa.gov/neoreport030825.pdf.
11 Thomas, K.S., McMann, H.J., US Spacesuits, Springer-Praxis Books in Space Exploration, Berlin, 2006.
12 Yeomans, D.K., NASA Jet Propulsion Laboratories Near-Earth Object Program, NASA, Office of Near-Earth Objects, NASA/JPL, Pasadena, CA, 2010, URL: http://neo. jpl.nasa.gov.
13 Yeomans, D.K., NASA Jet Propulsion Laboratories Small-Body Database, NASA, Office of Solar System Dynamics, NASA/JPL, Pasadena, CA, 2010, URL: http://ssd. jpl.nasa.gov.
14 Young, K., Hurtado, J.M., Bleacher, J.E., Garry, W.B., Bleisath, S., Buffington, J., Rice Jr., J.W., "Tools and technologies needed for conducting planetary field geology while on EVA: Insights from the 2010 Desert RATS geologist crewmembers", Acta Astronautica, 2011, DOI:10.1016/j.actaastro.2011.10.016.   DOI   ScienceOn
15 Williams, T.W. and Hess, C.W., "Techniques for improving the performance of future EVA maneuvering systems", Final Report, NASA-CR-200882, NASA Johnson Space Center, Houston, TX, 1995.