MAARS: Machine learning-based Analytics for Automated Rover Systems
Masahiro Ono, Brandon Rothrock, Kyohei Otsu, Shoya Higa, Yumi Iwashita, Annie Didier, Tanvir Islam, Christopher Laporte, V. Z. Sun, K. M. Stack, Jacek Sawoniewicz, Shreyansh Daftry, Virisha Timmaraju, Sami Sahnoune, Chris A. Mattmann, Olivier Lamarre, Sourish Ghosh, Dicong Qiu, Shunichiro Nomura, Hiya Roy
- Year
- 2020
- Citations
- 29
Abstract
MAARS (Machine leaning-based Analytics for Automated Rover Systems) is an ongoing JPL effort to bring the latest self-driving technologies to Mars, Moon, and beyond. The ongoing AI revolution here on Earth is finally propagating to the red planet as the High Performance Spaceflight Computing (HPSC) and commercial off-the-shelf (COTS) system-on-a-chip (SoC), such as Qualcomm's Snapdragon, become available to rovers. In this three year project, we are developing, implementing, and benchmarking a wide range of autonomy algorithms that would significantly enhance the productivity and safety of planetary rover missions. This paper is to provide the latest snapshot of the project with broad and high-level description of every capability that we are developing, including scientific scene interpretation, vision-based traversability assessment, resource-aware path planning, information-theoretic path planning, on-board strategic path planning, and on-board optimal kinematic settling for accurate collision checking. All of the onboard software capabilities will be integrated into JPL's Athena test rover using ROS (Robot Operating System).
Keywords
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