Operations for Autonomous Spacecraft
Abstract
Onboard autonomy technologies such as planning and scheduling, identification of scientific targets, and content-based data summarization, will lead to exciting new space science missions. However, the challenge of operating missions with such onboard autonomous capabilities has not been studied to a level of detail sufficient for consideration in mission concepts. These autonomy capabilities will require changes to current operations processes, practices, and tools. We have developed a case study to assess the changes needed to enable operators and scientists to operate an autonomous spacecraft by facilitating a common model between the ground personnel and the onboard algorithms. We assess the new operations tools and workflows necessary to enable operators and scientists to convey their desired intent to the spacecraft, and to be able to reconstruct and explain the decisions made onboard and the state of the spacecraft. Mock-ups of these tools were used in a user study to understand the effectiveness of the processes and tools in enabling a shared framework of understanding, and in the ability of the operators and scientists to effectively achieve mission science objectives.
Cite
@article{arxiv.2111.10970,
title = {Operations for Autonomous Spacecraft},
author = {Rebecca Castano and Tiago Vaquero and Federico Rossi and Vandi Verma and Ellen Van Wyk and Dan Allard and Bennett Huffmann and Erin M. Murphy and Nihal Dhamani and Robert A. Hewitt and Scott Davidoff and Rashied Amini and Anthony Barrett and Julie Castillo-Rogez and Steve A. Chien and Mathieu Choukroun and Alain Dadaian and Raymond Francis and Benjamin Gorr and Mark Hofstadter and Mitch Ingham and Cristina Sorice and Iain Tierney},
journal= {arXiv preprint arXiv:2111.10970},
year = {2022}
}
Comments
16 pages, 18 Figures, 1 Table, to be published in IEEE Aerospace 2022 (AeroConf 2022)