Seventh International Conference on the Exploration and Utilization of the Moon
Paper Presentations
The 2005 International Lunar Conference on the Exploration and Utilization of the Moon was held 18-23 September 2005 in Toronto, Canada. It brought together leading scientists and space industry professionals from around the world to discuss and plan the world's return to the Moon. This page gives an overview of the presentations given at the conference and links the available documentation. For the poster presentations see the right-hand side navigation. The presentations are sorted by date and by session. The abstract (Abs.) column links either to the abstract book (Book) or the individual paper. All files are in PDF format. The reference for the ICEUM7 abstracts and presentations is: Author, N. et al, in "Book of abstracts and presentations, International Lunar Conference 2005, 7th ILEWG Conference on Exploration and Utilisation of the Moon (ICEUM7)", R. Richards, C. Sallaberger, B.H. Foing, D. Maharaj (editors), online on http://sci.esa.int/iceum7, page number Monday 19 September 2005 | International Programs & Cooperation | Title
Author(s), presenter | Abs. | Pres. | CSA Welcome Keynote to International Lunar Conference
Marc Garneau, Canadian Space Agency (CSA) | | PDF | NASA Keynote to International Lunar Conference 2005
Mark Borkowski, NASA Robotic Lunar Exploration Program | | PDF | | International Programs & Cooperation | A Canadian roadmap for the Moon and Mars within an international context
John Spray, University of New Brunswick | Book
p. 11 | PDF | Applying ISS Lessons Learned in Future Models for International Cooperation
Graham Gibbs, Canadian Space Agency (CSA) | Book
p. 12 | PDF | ESA Human Lunar Architecture Activities
Scott Hovland, European Space Agency | Paper | PDF | European Studies and Payloads for Lunar Landers
Bernard Foing, ESA & ILEWG; Lunar Lander Working Group, Europe | Book
p. 12 | PDF | International Cooperation from a US Perspective
Wendell Mendell, NASA | Book
p. 13 | | International Coordination
Peggy Finarelli, International Space University; Ian Pryke, George Mason University | Book
p. 13 | PDF | Japanese Long Term Moon Exploration Plan and Moon Lander Concept
Kohtaro Matsumoto, Institute of Space Technology and Aeronautics, JAXA; Mitsushige Oda, Institute of Space Technology and Aeronautics, JAXA; Sachiko Wakabayashi, Institute of Space Technology and Aeronautics, JAXA | Book
p. 13 | PDF | Centennial Challenges Announcement
Brant Sponberg, Exploration Systems Mission Directorate, NASA Headquarters | | PDF | Potential Models for International Cooperation
Ramin Khadem, Inmarsat, International Space University | Book
p. 14 | PDF | | Status & Results Of Current Missions | ESA's SMART-1 Mission at the Moon: First Results and Perspectives
Bernard Foing, ESA ESTEC SCI-S; Giuseppe Racca, ESA ESTEC; Octavio Camino-Ramos, ESA ESOC; Miguel Almeida- | Book
p. 31 | PDF | First Results at the Moon from the SMART-1/AMIE Camera System
Jean-Luc JOSSET, SPACE-X, Space Exploration Institute; Stephane BEAUVIVRE, SPACE-X, Space Exploration Institute | Book
p. 32 | PDF | Lunar Exploration Program of China
Xifan Hao | Paper | PDF | Mini-SAR: An Imaging radar for the Chandrayaan 1 Mission to the Moon
Paul Spudis, APL; Ben Bussey, APL; Chris Lichtenberg, NavAir; Bill Marinelli, NavAir; Stu Nozette, NASA | Book
p. 32 | PDF | Present Status of the Payload Development for Chang'e-1
Huixian Sun, CSSAR; Ji Wu, CSSAR; Baochang zhao, XIOPM; Rong Shu, SITP; Nan Zhang, PMO; Huanyu Wang, IHEP; Qingying Ren, CSSAR; Xiaohui Zhang, CSSAR- | Book
p. 32 | PDF | Scientific problems and priorities in exploration of the Moon
Narendra Bhandari, Basic Science Research Institute | Book
p. 33 | PDF | SMART-1: payload operations during the Cruise and at the Moon
Miguel Almeida, ESA/ESTEC; David Frew, ESA/ESTEC; Mehran Sarkarati, ESA/ESTEC; Bernard Foing, ESA/ESTEC | Book
p. 33 | | The Japanese Lunar Missions of Lunar-A and SELENE: Present Status and Science Goals
Manabu Kato, ISAS/JAXA; Susumu Sasaki, ISAS/JAXA; Akio Fujimura, ISAS/JAXA; Satoshi Tanaka, ISAS/JAXA | Book
p. 33 | | The SELENE PROJECT status
Hiroyuki Minamino, Japan Aerospace Exploration Agency (JAXA); Manabu Kato, JAXA; Susumu Sasaki, JAXA; Yoshisada Takizawa, JAXA | Book
p. 34 | PDF | US Vision of Space Exploration: LRO as a 1st step
Dr. Jim Garvin, NASA | | PDF | Tuesday 20 September 2005 | Invited & Sponsored | Title
Author(s), presenter | Abs. | Pres. | Spacedev Revolutionizing Space Through the Microcomputer Way of Thinking
Jim Benson, SpaceDev | | PDF | | Greg Maryniack, St. Louis Museum | | | | Commercial Exploration & Development | Attracting Non-Space Industry into Space: A Catalyst for Lunar Commercialization
Paul Eckert, Boeing - Space Exploration Systems | Paper | PDF | Between the Market and the Moon – Requirements for Lunar Tourism
Eric Dahlstrom, InternationalSpace.com; Emeline Paat-Dahlstrom, Space Adventures | Book
p. 6 | PDF | Export Controls: Impact on International Space Cooperation
Lucy Stoyak | Book
p. 7 | PDF | Investment Financing of Exploration: Examples from the Past and Ideas for a Lunar Future.
Eva-Jane Lark, BMO Nesbitt Burns | Paper | PDF | Jamestown on the Moon
Klaus P. Heiss, High Frontier, Inc. | Book
p. 8 | PDF | Lunar Polar Reources: Regulation for Sustainability
James Burke, The Planetary Society | Paper | PDF | NASA's Centennial Challenges Program
Ken Davidian, NASA Headquarters; Brant Sponberg, NASA Headquarters | Paper | PDF | Paths to Commercialization of Cislunar Space in the Vision for Space Exploration
Wendell Mendell, NASA Johnson Space Center / KX | Book
p. 9 | PDF | Public and Private Sector Coordination for Effective Lunar Resource Use
Charles O'Dale, Senomix Software Inc. | Paper | PDF | Transporting A Legal System From The Earth To The Moon
Rosanna Sattler, Posternak Blankstein & Lund, LLP | Paper | PDF | A SmallTug Mission to the Lunar L1
Jim Benson, SpaceDev; Andrews Space | Book
p. 24 | PDF | | Cross Cutting Themes | International, Interdisciplinary and Intercultural Space Education - Hearing in a Vacuum
Michael Simpson, International Space University (ISU) | Book
p. 10 | PDF | Space Education Specialist
Philomena Bonis, Waterloo Region District School Board | Paper | PDF | | Key Enabling Technologies | A Reusable Design for Precision Lunar Landing Systems
Linda Fuhrman, Draper Laboratory; Timothy Brand, Draper Laboratory; Thomas Fill, Draper Laboratory; Lee Norris, Draper Laboratory; Stephen Paschall, Draper Laboratory | Book
p. 14 | PDF | A Small Wheeled Lunar Rover with Combinatory Ability
Jianguo Tao, Harbin Institute of Technology; Zongquan Deng, Harbin Institute of Technology; Ming Hu, Harbin Institute of Technology | Paper | | An Innovative Lunar Rover with Superhigh Climbing Ability
Ming Hu, Harbin Institute of Technology; Zongquan Deng, Harbin Institute of Technology; Haibo Gao, Harbin Institute of Technology; Jianguo Tao, Harbin Institute of Technology | Paper | | Architectural Prospects for Lunar Mission Support
Robert Cesarone, Jet Propulsion Laboratory (JPL); Douglas Abraham, JPL; Leslie Deutsch, JPL; Gary Noreen, JPL | Paper | PDF | Autonomous Hazard-Avoidance Landing on the Moon: Adaptation and Demonstration of the LAPS System
Jean de Lafontaine, NGC Aerospace Ltd (NGC).; David Neveu, NGC.; Karina Lebel, NGC; Jeff Tripp, Optech; Eric Martin, Optech; Arkady Ulitsky, Optech; Robert Carr, MDA; Shawn Janes, MDA | Book
p. 16 | PDF | Canadian Space Robotic Systems for Lunar Exploration
Nadeem Ghafoor, MDA; Paul Fulford, MDA; Ryan McCoubrey, MDA; Christian Sallaberger, MDA | Book
p. 16 | PDF | Comparison of Power System Options Between Future Lunar and Mars Missions
Tibor Balint, Jet Propulsion Laboratory | Paper | PDF | Construction and Resource Utilization Explorer: Regolith Characterization using a Modular Instrument Suite and Analysis Tools
Jerome Johnson, ERDC-CRREL; William Boynton, University of Arizona; Keil Davis, Honeybee Robotics; Rick Elphic, Loa Alamos National Laboratory; Brian Glass, NASA Ames Research Center; Albert Haldemann, JPL, Cal. Tech.; Tommy Mack, NASA KSC | Paper | PDF | JSC-1: Lunar Simulant of Choice for Geotechnical Applications and Oxygen Production
Lawrence Taylor, PGI, University of Tennessee; Eddy Hill, PGI, University of Tennessee; Yang Liu, PGI, University of Tennessee; James Day, PGI, University of Tennessee | Book
p. 18 | PDF | Lunar Oxygen Production for Human Exploration – The PILOT Program
David L. Clarke, Lockheed Martin Space Systems Company; Kevin Payne, Lockheed Martin Space Systems Company; Mike Duke, Colorado School of Mines; Robert Gustafson, Orbital Technologies Corp.; Rolf Baumgartner, Technology Applications, Inc. | Book
p. 18 | PDF | Microwave Processing of Lunar Soil Simulants JSC-1 and MLS-1
Eddy Hill, PGI, University of Tennessee; Lawrence Taylor, PGI, University of Tennessee; Yang Liu, PGI, University of Tennessee; James Day, PGI, University of Tennessee | Book
p. 19 | PDF | Precision Landing and Hazard Avoidance Technology Development
Robert Frampton, The Boeing Company; Robert Richards, Optech; Mata Bishun, MDA; Jeff Tripp, Optech; Arkady Ulitsky, Optech; Eric Martin, Optech; Jean de Lafontaine, NGC Aerospace Ltd. | Book
p. 19 | PDF | Regolith & Environment Science, and Oxygen & Lunar Volatile Extraction (RESOLVE) for Robotic Lunar Polar Lander Mission
Gerald Sanders, Landon Moore, David S. McKay, Tom M. Simon (NASA/Johnson Space Center), Dale E. Lueck, Clyde F. Parrish (NASA/Kennedy Space Center), Kenneth R. Johnson, Greg Mungas, Mike Pelletier (Jet Propulsion Laboratory), Kurt Sacksteder (NASA/Glenn Research Center), Michael Duke (Colorado School of Mines), Jeffrey Taylor (University of Hawaii), Larry Taylor (University of Tennessee), Dale Boucher (NORCAT Inc.) | Paper | PDF | Results from the NASA Capability Roadmap Team for In-Situ Resource Utilization (ISRU)
Gerald Sanders, Kris A. Romig (NASA/Johnson Space Center), William E. Larson, Robert Johnson (NASA/Kennedy Space Center), Don Rapp, Ken R. Johnson (Jet Propulsion Laboratory), Kurt Sacksteder, Diane Linne (NASA/Glenn Research Center), Peter Curreri (NASA/Marshall Space Flight Center), Michael Duke, Brad Blair (Colorado School of Mines), Leslie Gertsch (University of Missouri Rolla), Dale Boucher (NORCAT Inc.), Eric Rice (Orbital Technologies Corp.), Larry Clark (Lockheed Martin Space Systems), Ed McCullough (Boeing), Robert Zubrin (Pioneer Astronautics) | Paper | PDF | Scanning ALtimetric LIdar (SALLI): Applied to high resolution mapping of the lunar south pole
Ross Gillett, MDA; Andy Cheng, The Johns Hopkins University Applied Physics Laboratory; Ben Bussey, The Johns Hopkins University Applied Physics Laboratory; Eric Martin, Optech; Arkady Ulitsky, Optech | Book
p. 21 | PDF | Silicon Germanium Integrated Electronics for Extreme Environments
Leora Peltz, Boeing Phantom Works; John Cressler, Georgia Institute of Technology; Mohammad Mojarradi, Jet Propulsion Lab | Book
p. 21 | PDF | Simulation of Mechanical Behavior of Agglutinates
Masami Nakagawa, Colorado School of Mines; Tae-Hyun Moon, Colorado School of Mines | Book
p. 22 | PDF | Thursday 22 September 2005 | New Mission Concepts & Unanswered Questions | Title
Author(s), presenter | Abs. | Pres. | A Deep Field Infrared Observatory Near the Lunar Pole
Roger Angel, Dan Eisenstein, Suresh Sivanandam, Simon Worden (Steward Observatory, The University of Arizona), Jim Burge (Optical Sciences Center, The University of Arizona), Ermanno Borra, Clément Gosselin, Omar Seddiki (Université Laval, Faculté des sciences et de génie), Paul Hickson (Department of Physics & Astronomy, University of British Columbia), Ki Bui Ma (Texas Center for Superconductivity, University of Houston), Bernard Foing (Chief Scientist, ESA/ESTEC/SCI-S), Jean-Luc Josset (Space-X Space Exploration Institute), Simon Thibault (Immervision) | Paper | PDF | A lunar telescope enabled by exploration infrastructure
Ed Friedman, Boeing; Jon Morse, Arizona State University; Dianne Wiley, Boeing | Paper | | A Review Of Technical Requirements For Lunar Structures – Present Status
Alexander M. Jablonski, Canadian Space Agency; Kelly A. Ogden, Canadian Space Agency, University of Waterloo | Paper | PDF | A Study of experimental facility for Lunar Rover Development
Shichao Fan, China Academy of Space Technology; Yaoqi Feng, China Academy of Space Technology; Qingjin Deng, China Academy of Space Technology | Paper | PDF | DARPA Lunar Study: Reducing the technical risk associated with lunar resource utilization and lunar surface presence
Paul Fulford, MDA; Karen Wood, DARPA TTO; John Lymer, MDA; Andew Allen, MDA; Ross Gillett, MDA; Carl Anders, MDA | Book
p. 24 | PDF | Ground-Truthing Regolith Composition Of The Lunar South Pole Using Small Penetrators
Daniel Faber, Heliocentric Technologies Inc.; Gopalan Srinivasan, Dept. of Geology, University of Toronto; Rocky Persaud, Interplanetary Expeditions Inc.; Christopher Charles, Dept. of Geology, University of Toronto | Paper | PDF | International Lunar Observatory: ILO Mission Update (4th Quarter 2005)
Steve Durst, Space Age Publishing Company / Lunar Enterprise Corporation; Jim Benson, SpaceDev; Chris Thomason, Space Age Publishing Company | Book
p. 25 | PDF | Low Cost Lunar Exploration Mission Concepts using Micro Satellite Systems and Technologies
Tony Spear, JPL (ret.); Leon Alkalai, JPL | Book
p. 25 | PDF | Lunar Exploration Requirements and Data Acquisition Architectures
Jeffrey Plescia, JHU/APL; Paul Spudis, JHU/APL; Ben Bussey, JHU/APL | Book
p. 26 | PDF | Lunar Infrastructure For Exploration - Low Frequency Telescope as Door Opener For Next Generation Lunar Infrastructure
Hartmut Mueller, EADS Space Transportation; Uwe Apel, Hochschule Bremen | Book
p. 26 | PDF | Lunette: An Affordable Canadian Lunar Farside Gravity Mapping Mission
Kieran A. Carroll, Gedex Inc.; Henry Spencer, SP Systems; Robert E. Zee, University of Toronto Space Flight Laboratory; Jafar Arkani-Hamed, University of Toronto Physics Department | Paper | PDF | Mare Basalt Produced by Impact Induced Convection in the Lunar Interior
Abdolreza Ghods, Institute for Advanced Studies in Basin Sciences; Jafar Arkani-Hamed, McGill University | Book
p. 27 | PDF | Moonlight project - Observations of Lunar rotation and Ephemeris by optical methods on the Moon
Hideo Hanada (National Astronomical Observatory of Japan), Hiroo Kunimori, Mizuhiko Hosokawa (National Institute of Information and Communications Technology, Tokyo), Masato Katayama, Hirotomo Noda, Hiroshi Araki, Sho Sasaki, Nobuyuki Kawano (National Astronomical Observatory of Japan) | Paper | PDF | NEEMO 7 Undersea Telemedicine - Enabling the Human Exploration of Space
Robert Thirsk, Canadian Space Agency; Dafydd Williams, Canadian Space Agency; Mehran Anvari, Centre for Minimal Access Surgery | Book
p. 28 | | The Considerations for Lunar Sample Return
Deng Xiangjin, Chinese Academy of Space Technology; Zhang He, Chinese Academy of Space Technology | Paper | | The Lunar Split Mission: Concepts for Robotically Constructed Lunar Bases
George Davis, Emergent Space Technologies; Paul Lowman, NASA Goddard Space Flight Center; Wallace Fowler, University of Texas at Austin | Paper | PDF | The Science Scenario of the SELENE-2 Mission
Manabu Kato, ISAS/JAXA; Kohtaro Matsumoto, ISTA/JAXA; Tatsuaki Okada, ISAS/JAXA; Satoshi Tanaka, ISAS/JAXA | Book
p. 30 | PDF | Understanding the Interior of the Moon – A Missing Fundamental Dataset
Clive Neal, University of Notre Dame | Book
p. 30 | PDF | Very Low Frequency Observation On The Moon
Hirotomo Noda, Nobuyuki Kawano, Makoto Inoue (1); Takahiro Iwata (2); Takayuki Ono (3); Tetsuro Kondo, Hiroshi Takeuchi (4); Fuminori Tsuchiya (5); Munetoshi Tokumaru (6); Tomofumi Hirosaki (7); Yukio Matsufuji (8); Kohtaro Matsumoto (2); Hiroaki Misawa (5); Akira Miyahara (2); Akira Morioka (5).
(1) National Astronomical Observatory of Japan, (2) Japan Aerospace Exploration Agency, (3) Tohoku University, (4) National Institute of Information and Communications Technology, (5) Tohoku University, (6) Nagoya University, (7) Space System Design, (8) NTspace | Book
p. 31 | PDF |
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Poster Presentations |
Last Update: 03 Sep 2008
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