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NASA NTRS · Conference Paper

Reducing Landing Site Contamination Using 3-D Trajectory Optimization for Surface Hoppers

Published 2023-02-08 From Goddard Space Flight Center 2 authors

Attribution

This is the abstract and citation. Full text lives at NASA NTRS — we link out rather than host. All credit to the authors and Goddard Space Flight Center.

Abstract

Verbatim from NASA NTRS. Not paraphrased, not summarized.

Rocket-powered vehicles utilizing Vertical Take-off Vertical Landing (VTVL) are a compelling alternative to surface rovers for exploring planetary and lunar bodies. These so called “hoppers” provide enhanced mobility for accessing locations difficult to reach, and over a wider region of the surface. However, contamination and plume interactions from rocket exhaust deposited at landing sites is anticipated since landing approaches are typically along a vertical direction during the final descent. Consequently, exhaust products may alter the surface chemistry, potentially confounding compositional analysis for samples collected in the vicinity of the landing site or jeopardize mining efforts. There has been no rigorous study on flight maneuvers that can mitigate plume-to-surface interactions. A multi-objective optimization tool has been developed to simulate propulsive hops on a planetary body and minimize both fuel consumption and site alterations. Trajectories are derived by multi-objective optimization and include solutions with significant reduction in contamination for a modest increase in fuel consumption. For these solutions, surface-to-surface propulsive transfer is demonstrated, but the method can also be modified for orbit-to-surface transfers (e.g., landers).

Authors

  • Philip C Calhoun Goddard Space Flight Center
  • Alvin G Yew Goddard Space Flight Center

Keywords

  • guidance
  • navigation
  • control

Citation: Philip C Calhoun, Alvin G Yew (2023). Reducing Landing Site Contamination Using 3-D Trajectory Optimization for Surface Hoppers. Goddard Space Flight Center. NASA NTRS ID 20230000492. https://ntrs.nasa.gov/citations/20230000492 ↗