Science Autonomy using Machine Learning for Astrobiology
V. D. Poian
B. Theiling
Eric Lyness
David Burtt
A. Azari
Joey Pasterski
Luoth Chou
Melissa Trainer
Ryan Danell
Desmond Kaplan
Xiang Li
Lily Clough
Brett McKinney
Lukas Mandrake
Bill Diamond
Caroline Freissinet
Abstract
In recent decades, artificial intelligence (AI) including machine learning (ML) have become vital for space missions enabling rapid data processing, advanced pattern recognition, and enhanced insight extraction. These tools are especially valuable in astrobiology applications, where models must distinguish biotic patterns from complex abiotic backgrounds. Advancing the integration of autonomy through AI and ML into space missions is a complex challenge, and we believe that by focusing on key areas, we can make significant progress and offer practical recommendations for tackling these obstacles.
View on arXiv@article{poian2025_2504.00709,
title={ Science Autonomy using Machine Learning for Astrobiology },
author={ Victoria Da Poian and Bethany Theiling and Eric Lyness and David Burtt and Abigail R. Azari and Joey Pasterski and Luoth Chou and Melissa Trainer and Ryan Danell and Desmond Kaplan and Xiang Li and Lily Clough and Brett McKinney and Lukas Mandrake and Bill Diamond and Caroline Freissinet },
journal={arXiv preprint arXiv:2504.00709},
year={ 2025 }
}Comments on this paper