237-7 Developing Planetary Exploration Geophysical Systems

See more from this Division: Topical Sessions
See more from this Session: The Role of Field Geology and Geophysics in the Return to the Moon

Tuesday, 7 October 2008: 9:40 AM
George R. Brown Convention Center, 310AD

Andrew Feustel and Matthew Brzostowski, Houston, TX
Abstract:
Consistent with NASA's new vision for exploration, the Planetary Exploration Geophysical Systems (PEGS) project was initiated in 2004. The goal of this project is to develop guidelines for seismic hardware suitable for Lunar and Martian exploration. The system must have minimal volume and mass, be self-powered and recharging, wireless and suitable for planetary exploration and astronaut training. Seismic and other geophysical systems will be key elements of planetary exploration, sub-surface assessments and resource development.

The system will be required to be deployed robotically and to provide RF command and telemetry back to the human base station where rapid processing and evaluation of the returned data will be carried out. The system will also be required to perform both shallow penetration, high resolution surveys and deep penetration scientific studies resulting in a flexible deployment pattern and wide-aperture acquisition capabilities utilizing the same equipment. The system must be developed and integrated with any future operational surface and sub-surface reconnaissance program in order to facilitate efficient use of crew exploration efforts and understand mass and volume constraints based on exploration vehicle development.

Field work using a base-line system was carried out in 2004, 2005 and 2006 at Barringer Crater and 2005 in the Dry Valleys of Antarctica. The field work focused on acquiring seismic data using an RF seismic system and an accelerated weight-drop source. A portable system was used in the Dry Valleys of Antarctica. The 2005 and 2006 Barringer surveys were carried out in conjunction with a much larger NASA effort to test advanced EVA suits, exploration rover capabilities with remote vehicle command and data transfer. The tests were significantly successful in terms of building a framework for future planetary seismic systems intended for use by exploration astronauts.

See more from this Division: Topical Sessions
See more from this Session: The Role of Field Geology and Geophysics in the Return to the Moon