Mars On-Site Shared Analytics Information and Computing

Authors

  • Joshua Vander Hook California Institute of Technology
  • Tiago Vaquero California Institute of Technology
  • Federico Rossi California Institute of Technology
  • Martina Troesch California Institute of Technology
  • Marc Sanchez Net California Institute of Technology
  • Joshua Schoolcraft California Institute of Technology
  • Jean-Pierre de la Croix California Institute of Technology
  • Steve Chien California Institute of Technology

DOI:

https://doi.org/10.1609/icaps.v29i1.3556

Abstract

We study the use of distributed computation in a representative multi-robot planetary exploration mission. We model a network of small rovers with access to computing resources from a static base station based on current design efforts and extrapolation from the Mars 2020 rover autonomy. The key algorithmic problem is simultaneous scheduling of computation, communication, and caching of data, as informed by an autonomous mission planner. We consider scheduling of a dependency chain of required and optional (but rewarding) tasks and present a consensus-backed scheduler for sharedworld, distributed scheduling based on an Integer Linear Program. We validate the pipeline with simulation and field results. Our results are intended to provide a baseline comparison and motivating application domain for future research into network-aware decentralized scheduling and resource allocation.

ICAPS 2019 Proceedings Cover, Berkeley, California USA

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Published

2021-05-25

How to Cite

Hook, J. V., Vaquero, T., Rossi, F., Troesch, M., Net, M. S., Schoolcraft, J., Croix, J.-P. de la, & Chien, S. (2021). Mars On-Site Shared Analytics Information and Computing. Proceedings of the International Conference on Automated Planning and Scheduling, 29(1), 707-715. https://doi.org/10.1609/icaps.v29i1.3556

Issue

Vol. 29 (2019): Proceedings of the Twenty-Ninth International Conference on Automated Planning and Scheduling

Section

Robotics