posted on 2000-11-01, 00:00authored byDimitrios S. Apostolopoulos, Michael D. Wagner, Benjamin N. Shamah, Liam Pederson, Kimberly Shillcutt, William L Whittaker
Meteorites are the only significant source of material from other
planets and asteroids, and therefore are of immense scientific
value. Antarctica’s frozen and pristine environment has proven to
be the best place on Earth to harvest meteorite specimens. The lack
of melting and surface erosion keep meteorite falls visible on the
ice surface in pristine condition for thousands of years. In this
article we describe the robotic technologies and field
demonstration that enabled the first discovery of Antarctic
meteorites by a robot. Using a novel autonomous control
architecture, specialized science sensing, combined manipulation
and visual servoing, and Bayesian classification, the Nomad robot
found and classified five indigenous meteorites during an
expedition to the remote site of Elephant Moraine in January 2000.
This article first overviews Nomad’s mechatronic systems, and
details the control architecture that governs the robot’s autonomy
and classifier that enables the autonomous interpretation of
scientific data. It then focuses on the technical results achieved
during field demonstrations at Elephant Moraine. Finally, the
article discusses the benefits and limitations of robotic autonomy
in science missions. Science autonomy is shown as a capable and
expandable architecture for exploration and in situ classification.
Inefficiencies in the existing implementation are explained with a
focus on important lessons that outline future work.