Micro-Penetrator For Canadian Planetary Exploration

Space exploration is a highly visible endeavour of humankind to seek profound answers to questions about the origins of our solar system, whether life exists beyond Earth, and how we could live on other worlds. Different platforms have been utilized in planetary exploration missions, such as orbiter...

Full description

Bibliographic Details
Main Authors: Skulinova, Michaela, Wanping Zheng, Hu, Yan-Ru, Soucy, Yvan
Format: Text
Language:English
Published: Zenodo 2011
Subjects:
micro-penetrator
CSA
planetary exploration
Atkinson
Canada
Coates
Crawford
Dougherty
Endeavour
Garry
Morrison
Steele
Todd
polar night
Online Access:https://dx.doi.org/10.5281/zenodo.1055525
https://zenodo.org/record/1055525
Description
Summary:Space exploration is a highly visible endeavour of humankind to seek profound answers to questions about the origins of our solar system, whether life exists beyond Earth, and how we could live on other worlds. Different platforms have been utilized in planetary exploration missions, such as orbiters, landers, rovers, and penetrators. Having low mass, good mechanical contact with the surface, ability to acquire high quality scientific subsurface data, and ability to be deployed in areas that may not be conducive to landers or rovers, Penetrators provide an alternative and complimentary solution that makes possible scientific exploration of hardly accessible sites (icy areas, gully sites, highlands etc.). The Canadian Space Agency (CSA) has put space exploration as one of the pillars of its space program, and established ExCo program to prepare Canada for future international planetary exploration. ExCo sets surface mobility as its focus and priority, and invests mainly in the development of rovers because of Canada's niche space robotics technology. Meanwhile, CSA is also investigating how micro-penetrators can help Canada to fulfill its scientific objectives for planetary exploration. This paper presents a review of the micro-penetrator technologies, past missions, and lessons learned. It gives a detailed analysis of the technical challenges of micro-penetrators, such as high impact survivability, high precision guidance navigation and control, thermal protection, communications, and etc. Then, a Canadian perspective of a possible micro-penetrator mission is given, including Canadian scientific objectives and priorities, potential instruments, and flight opportunities. : {"references": ["N. I. K\u00f6mle, G. Kargl and A. J. Ball, \"Determination of physical\nproperties of planetary sub-surface layers by artificial impacts and\npenetrometry,\" Advances in Space Research, 28 (10), pp. 1539-1549,\n2001.", "Yang Gao; Alex Ellery; Mustafa Jaddou; Julian Vincent & Steven\nEckersley, \"A Novel Penetration System for in situ Astrobiological\nStudies,\" International Journal of Advanced Robotic Systems, 2, 281\u00d4\u00c7\u00f6\n286, 2005.", "Ball, J. Garry, R. Lorenz, V. Kerzhanovich, \"Planetary Landers and\nEntry Probes\". Published in June 11th 2007 by Cambridge University\nPress.", "CSEW6 Steering Committee, \"Canadian Scientific Priorities for the\nGlobal Exploration Strategy,\" Proceedings of the 6th Canadian Space\nExploration Workshop, Dec 1st-3rd 2008, St.Hubert, Quebec, Canada.", "R.A.Gowen, A.Smith, A.Griffiths, A. Coates, A. J.Ball, S.Barber,\nA.Hagermann, S.Sheridan, I.Crawford, P.Church, N.Wells, Y.Gao,\nA.Phipps, D.Talboys & W.T.Pike, \"KINETIC PENETRATORS FOR\nEXPLORATION OF SOLAR SYSTEM BODIES,\"\nhttp://www.mrc.uidaho.edu/~atkinson/IPPW5/Papers/s6_4gowen02.pdf.\n2007.", "Smith \u252c\u00c0 I. A. Crawford \u252c\u00c0 R. A. Gowen \u252c\u00c0 A. J. Ball \u252c\u00c0 S. J. Barber \u252c\u00c0 P.\nChurch \u252c\u00c0 A. J. Coates \u252c\u00c0 Y. Gao \u252c\u00c0 A. D. Griffiths \u252c\u00c0 A. Hagermann \u252c\u00c0 K. H.\nJoy \u252c\u00c0 A. Phipps \u252c\u00c0 W. T. Pike \u252c\u00c0 R. Scott \u252c\u00c0 S. Sheridan \u252c\u00c0 M. Sweeting \u252c\u00c0 D.\nTalboys \u252c\u00c0 V. Tong \u252c\u00c0 N. Wells \u252c\u00c0 J. Biele \u252c\u00c0 J. Chela-Flores \u252c\u00c0 B. Dabrowski\n\u252c\u00c0= J. Flannagan \u252c\u00c0 M. Grande \u252c\u00c0 J. Grygorczuk \u252c\u00c0 G. Kargl \u252c\u00c0 O. B.\nKhavroshkin \u252c\u00c0 G. Klingelhoefer \u252c\u00c0 M. Knapmeyer \u252c\u00c0 W. Marczewski \u252c\u00c0 S.\nMcKenna-Lawlor \u252c\u00c0 L. Richter \u252c\u00c0 D. A. Rothery \u252c\u00c0 K. Seweryn \u252c\u00c0 S. Ulamec\n\u252c\u00c0 R. Wawrzaszek \u252c\u00c0M. Wieczorek \u252c\u00c0 I. P. Wright \u252c\u00c0 M. Sims (2009)\n\"LunarEX\u00d4\u00c7\u00f6a proposal to cosmic vision\", Exp Astron 23(3):711-740.", "Todd J. Mosher, Paul Lucey \"Polar Night: A lunar volatiles expedition\".\nActa Astronautica 59, pp. 585 - 592, 2006.", "Yan Gao, Rob Gowen, Alan Smith, Phil Church, Private\ncommunication, January 2011.", "A. Smith et al., \"LunarNet Cosmic Vision Proposal\" in\nhttp://www.mssl.ucl.ac.uk/planetary/missions/Penetrators_site/Moon_Pa\nge.htm, 2010.\n[10] H. Shiraishi, S. Tanaka, A. Fujimura, H. Hayakawa, \"The present status\nof the Japanese Penetrator Mission: LUNAR-A,\" Advances in Space\nResearch 42, pp.386-393, 2008.\n[11] R.D. Lorenz, \"Penetrators are not a Panacea: Historic Review and\nAssessment,\" Proceedings of the International Planetary Probe\nWorkshop 2010 (IPPW-7), Barcelona, Spain, 14-18 June 2010.\n[12] http://en.wikipedia.org/wiki/Deep_Space_2\n[13] JPL Special Review Board, \"Report on the Loss of Mars Polar Lander\nand Deep Space 2 Missions\", 2000.\n[14] http://nssdc.gsfc.nasa.gov/nmc/masterCatalog.do?sc=MARS96D\n[15] http://en.wikipedia.org/wiki/LUNAR-A\n[16] http://nssdc.gsfc.nasa.gov/nmc/spacecraftTelemetry.do?id=DEEPSP2\n[17] Surkov Y & Kremnev R (1998) \"Mars-96 mission: Mars exploration\nwith the use of penetrators\" Planet & Space Sci 46 (11/12), 1689-1696\n[18] H. Mizutani, A. Fujimura, S. Tanaka, H. Shiraishi and T. Nakajima\n\"LUNAR-A mission : Goals and status\". Advances in Space Research\nVolume 31, Issue 11, Pages 2315-2321, 2003\n[19] Smith, A.; Crawford, I. A.; Ball, A. J.; Barber, S. J.; Church, P.; Gao, Y.;\nGowen, R. A.; Griffiths, A.; Hagermann, A.; Pike, W. T.; Phipps, A.;\nSheridan, S.; Sims, M. R.; Talboys, D. L. and Wells, N. (2008)\n\"MoonLITE - Technological feasibility of the penetrator concept\", 39th\nLunar and Planetary Science Conference, 10-14 March 2008, League\nCity, Texas, USA.\n[20] http://en.wikipedia.org/wiki/Vesta_mission\n[21] http://en.wikipedia.org/wiki/Mars_96\n[22] http://en.wikipedia.org/wiki/MoonLITE\n[23] http://www.russianspaceweb.com/2013.html\n[24] http://exploration.esa.int/sciencee/\nwww/object/index.cfm?fobjectid=45084\n[25] Smrekar S et al \"Deep Space 2: the Mars microprobe mission\" J\nGeophys Res 104 (E11), 27013-27030, 1999\n[26] Lorenz R.D, \"Planetary penetrators: Their origins, history and future\"\nAdvances in Space Research 48, 403-431, 2011\n[27] Robert Gowen, Alan Smith, Berend Winter, Craig Theobald, Kerrin\nRees, Andrew J. Ball, Axel Hagermann, Simon Sheridan, Patrick\nBrown, Tim Oddy, Michele Dougherty, Philip Church, Yang Gao,\nAdrian Jones, Katherine H. Joy, Ian Crawford, Tom Pike, Dr Sunil\nKumar, Toby Hopf, Nigel Wells, Kevin Green, Keith Ryden (2008)\n\"AN UPDATE ON MOONLITE\". 59th IAC. 29th Sept-3rd Oct 2008,\nGlasgow, England.\n[28] Hopf, S. Kumar, W.J. Karl, W.T. Pike \"Shock protection of penetratorbased\ninstrumentation via a sublimation approach\". Advances in Space\nResearch 45, 460-467, 2010\n[29] Yang Gao, Andy Phipps, Mark Taylor, Jim Clemmet, Dave Parker, Ian\nA. Crawford, Andrew J. Ball, Lionel Wilson, Alex da Silva Curiel, Phil\nDavies, Martin Sweeting, Adam Baker \"UK Lunar Science Missions:\nMoonLITE & Moonraker\". DGLR Int. Symp. \"To Moon and beyond\",\nBremen, Germany, 14-16 March 2007\n[30] http://en.wikipedia.org/wiki/Luna-Glob\n[31] Zelenyi, L., Khartov, V.V., Mitrofanov, I.G., Martynov, M.B. \"Shortand\nMid-term Russian Lunar Program\", Abstract #1804, in: 42nd Lunar\nand Planetary Science Conference, Houston, TX, March 2011.\n[32] A. Smith, B. Winter, P. Church. \"A Verification Strategy for High\nVelocity Penetrators\". Workshop on Spacecraft shock environment and\nVerificatio,. ESA/ESTEC Noordwijk, The Netherlands, 13 - 14 May\n2008 http://www.congrex.nl/08c08/presentations/DAY2/S2-8.pdf\n[33] James R. Wertz, Wiley J. Larson \"Spacecraft subsystems - Thermal\" in\nSpace Mission Analysis and Design, 3rd edition, Microcosm/Springer ,\npp. 428-459, 1999 ISBN 978-1881883108\n[34] Morrison, D.; Neugebauer, M.; Weissman, PR., \"The comet rendezvous\nasteroid flyby mission\" In Lunar and Planetary Inst., Workshop on\nAnalysis of Returned Comet Nucleus Samples, p 54-55 (SEE N90-16607\n08-90), 1989.\n[35] A. Ellery, C. Kolb, H. Lammer, J. Parnell, H. Edwards, L. Richter, M.\nPatel, J. Romstedt, D. Dickensheets, A. Steele and C. Cockell\n\"Astrobiological instrumentation for Mars - the only way is down\",\nInternational Journal of Astrobiology 1 (4) : 365-380, 2003."]}

Similar Items