Pascal Lee (SETI Institute and Mars Institute) (left) measures the bearing capacity of gravelly soil at Asteroid Hill, National Training Center, Fort Irwin, California, using a static cone penetrometer, while Kris Zacny (Honeybee Robotics) drives an anchor into the same material to evaluate the system’s design and performance. These field tests will help design surface exploration systems optimized for the exploration of Near-Earth Asteroids, Phobos, and Deimos. 14 April 2013.  (First Canyon Media).

Field Tests in Mojave Desert Pave Way for Human Exploration of Small Bodies

Press Release, Mountain View, California, 14 May 2013. A team of researchers from the SETI Institute, the Mars Institute, NASA Ames Research Center, and the space robotics company Honeybee Robotics, has successfully completed a first series of field tests aimed at investigating how humans will explore and work on Near-Earth Asteroids (NEAs) and eventually the two moons of Mars, Phobos and Deimos.

From 13 to 15 April 2013, field experiments were conducted at the U.S. Army’s National Training Center (NTC) at Fort Irwin, California, to evaluate geotechnical methods and systems that will enable humans to be productive explorers in the low gravity environment of small rocky bodies. Sub-kilometer sized NEAs, Phobos, and Deimos are among destinations currently considered by NASA for future human missions into Deep Space.

“Human missions to Near-Earth Asteroids and to the moons of Mars present us with the exciting challenge of exploring planetary bodies with extremely low gravity” says Pascal Lee, planetary scientist at the SETI Institute and leader of the field test. “The goal of our field test was to learn how to characterize the physical properties of small body surfaces, and to test ideas that might enable humans to more productively explore these low-gravity worlds.”

The Mojave field test included three investigations: 1) a study of whether conventional field tools commonly used to characterize the mechanical properties of soils on Earth are suitable for small bodies; 2) an evaluation of how different anchoring systems might allow robotic spacecraft and astronauts to remain bound to a low gravity body; 3) a study of how astronauts might conduct geological sampling on a small body while using anchors and tethers.

“It’s important to analyze and understand how conventional civil engineering methods and systems perform in natural settings on Earth before adapting them to the exploration of small bodies” explains Kris Zacny, Director of planetary exploration robotics at Honeybee Robotics in Pasadena, California. Honeybee Robotics is the company that developed the Rock Abrasion Tool (RAT) on NASA’s Mars Exploration Rovers, Spirit and Opportunity, and the Sample Manipulation System (SMS) and Dust Removal Tool (DRT) on NASA’s Mars Science Laboratory (MSL) rover, Curiosity.

The Mojave field test was carried out on a small rocky hill at the NTC with many exposed blocks of weathered granite called tors. The site, now named “Asteroid Hill”, is reminiscent of the blocky surface of Near-Earth Asteroid (25143) Itokawa, which was explored in 2005 by Japan’s Hayabusa robotic spacecraft. “While neither the composition of the rocks nor the gravity at Asteroid Hill are similar to what they are on NEAs, the relevance of the site resides in the similarity in terrain texture (gravel and block abundance and sizes), topography, and scale between Asteroid Hill and Itokawa” notes Lee.

“This is an interesting analog site for planning future NASA robotic and human asteroid exploration, as it not only resembles the surface of the only sub-kilometer NEA explored by spacecraft to date, Itokawa, but it is well supported logistically by the U.S. Army’s National Training Center” said Terry Fong, Director of the Intelligent Robotics Group at NASA Ames Research Center.

The Mojave field test builds on an existing partnership between NASA and the U.S. Army’s National Training Center at Fort Irwin. The latter is home to NASA’s Goldstone Deep Space Network (DSN) tracking station. “The National Training Center’s participation in this field test with NASA represents another positive development in our Joint Interagency Intergovernmental and Multinational (JIIM) partnership. It allows NTC to showcase it’s soldiers, the NTC community, and NTC’s vast training resources” said Cyle Fena, Deputy G3 at the NTC.

The Mojave Field Test will be featured as part of an upcoming television documentary filmed by First Canyon Media, Inc, titled Mission Asteroid. Produced by the Canadian Broadcasting Corporation (CBC), Mission Asteroid is expected to air in North America in Fall 2013.

For more information, please visit www.seti.org and www.marsinstitute.info or contact:

Ms. Karen Randall
SETI Institute, Public Affairs Office
Email: krandall@seti.org
Tel: +1 650 960 4537

Mr. Pascal Lee
Mars Institute
E-mail: pascal.lee@marsinstitute.net

Figure 1: Top: 538 meter-long Near Earth Asteroid (25143) Itokawa imaged by Japan’s Hayabusa spacecraft. The asteroid is likely a loosely consolidated rubble pile (JAXA). Bottom: Similar scaled Asteroid Hill at the National Training Center, Fort Irwin, California, the site of the April 2013 NASA Mojave Field Test. Note the blocky to gravelly surface made of granite tors and debris. (NASA).

Figure 1: Top: 538 meter-long Near Earth Asteroid (25143) Itokawa imaged by Japan’s Hayabusa spacecraft. The asteroid is likely a loosely consolidated rubble pile (JAXA). Bottom: Similar scaled Asteroid Hill at the National Training Center, Fort Irwin, California, the site of the April 2013 NASA Mojave Field Test. Note the blocky to gravelly surface made of granite tors and debris. (NASA).

Pascal Lee (SETI Institute and Mars Institute) (left) measures the bearing capacity of gravelly soil at Asteroid Hill, National Training Center, Fort Irwin, California, using a static cone penetrometer, while Kris Zacny (Honeybee Robotics) drives an anchor into the same material to evaluate the system’s design and performance. These field tests will help design surface exploration systems optimized for the exploration of Near-Earth Asteroids, Phobos, and Deimos. 14 April 2013.  (First Canyon Media).

Figure 2: Pascal Lee (SETI Institute and Mars Institute) (left) measures the bearing capacity of gravelly soil at Asteroid Hill, National Training Center, Fort Irwin, California, using a static cone penetrometer, while Kris Zacny (Honeybee Robotics) drives an anchor into the same material to evaluate the system’s design and performance. These field tests will help design surface exploration systems optimized for the exploration of Near-Earth Asteroids, Phobos, and Deimos. 14 April 2013. (First Canyon Media).

Figure 3: Pascal Lee (SETI Institute and Mars Institute) (right) and Sgt Andre Pearson (U.S. Army, NTC) conduct “small body” geological sampling in simulated spacesuits while anchored and tethered on a steep boulder slope at Asteroid Hill, National Training Center, Fort Irwin, California. 15 April 2013. (NASA).

Figure 3: Pascal Lee (SETI Institute and Mars Institute) (right) and Sgt Andre Pearson (U.S. Army, NTC) conduct “small body” geological sampling in simulated spacesuits while anchored and tethered on a steep boulder slope at Asteroid Hill, National Training Center, Fort Irwin, California. 15 April 2013. (NASA).

About the SETI Institute

The SETI Institute is a private, nonprofit organization dedicated to scientific research, education and public outreach. The mission of the SETI Institute is to explore, understand and explain the origin, nature and prevalence of life in the universe. The SETI Institute comprises three centers, the Center for SETI Research, the Carl Sagan Center for the Study of Life in the Universe, and the Center for Education and Public Outreach. Founded in 1984, the SETI Institute began operations on February 1, 1985. Today it employs over 120 scientists, educators and support staff. The SETI Institute is headquartered in Mountain View, California. The research reported here was conducted as part of Cooperative Agreement NNX89AO50A between the SETI Institute and NASA. For more information, please visit: www.seti.org

About the Mars Institute

The Mars Institute is an international, non-governmental, non-profit research organization dedicated to advancing the scientific study, exploration, and public understanding of Mars. Research at the Mars Institute focuses on Mars Science and Exploration. The Institute also conducts research on the Moon, Deep Space, Near-Earth Objects, and Mars’s moons Phobos and Deimos, viewed as stepping-stones in the exploration of Mars. The Mars Institute is committed to conducting high quality peer-reviewed research and to sharing the knowledge and benefits of space exploration with students and the general public worldwide. The Mars Institute is headquartered at the NASA Ames Research Park, Moffett Field, California. The Institute also has offices in Toronto, Canada, and Stavanger, Norway. For more information, please visit: www.marsinstitute.info