Landing Footprint Computation for Entry Vehicles | Zendy

Amitabh Saraf | Zendy; James Leavitt | Zendy; Mark Ferch | Zendy; Kenneth D. Mease | Zendy

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Landing Footprint Computation for Entry Vehicles

Author(s) -

Amitabh Saraf,

James Leavitt,

Mark Ferch,

Kenneth D. Mease

Publication year - 2004

Publication title -

aiaa guidance, navigation, and control conference and exhibit

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.2004-4774

Subject(s) - footprint , computation , computer science , memory footprint , ecological footprint , transport engineering , automotive engineering , engineering , geology , operating system , sustainability , algorithm , ecology , biology , paleontology

A method is developed for generating landing footprints for entry vehicles in near realtime, as needed for an on-board flight management system. The method described in the paper is built around a previously developed, acceleration-based trajectory planner. The boundary of the footprint is constructed from the endpoints of extreme downrange or crossrange trajectories generated by the planner. The strengths of the method include fast computation time, respecting path constraints such as vehicle heating limits, accounting for Coriolis effects and constructing angle of attack profiles that are nearly optimal for long range glide. The accuracy of the landing footprint generator is determined by direct comparison with footprints computed with a general purpose optimization program.

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