Selection of the InSight landing site
Space Science Reviews, 2017•Springer
The selection of the Discovery Program InSight landing site took over four years from initial
identification of possible areas that met engineering constraints, to downselection via
targeted data from orbiters (especially Mars Reconnaissance Orbiter (MRO) Context
Camera (CTX) and High-Resolution Imaging Science Experiment (HiRISE) images), to
selection and certification via sophisticated entry, descent and landing (EDL) simulations.
Constraints on elevation (≤− 2.5 km ≦-2.5\mboxkm for sufficient atmosphere to slow the …
identification of possible areas that met engineering constraints, to downselection via
targeted data from orbiters (especially Mars Reconnaissance Orbiter (MRO) Context
Camera (CTX) and High-Resolution Imaging Science Experiment (HiRISE) images), to
selection and certification via sophisticated entry, descent and landing (EDL) simulations.
Constraints on elevation (≤− 2.5 km ≦-2.5\mboxkm for sufficient atmosphere to slow the …
Abstract
The selection of the Discovery Program InSight landing site took over four years from initial identification of possible areas that met engineering constraints, to downselection via targeted data from orbiters (especially Mars Reconnaissance Orbiter (MRO) Context Camera (CTX) and High-Resolution Imaging Science Experiment (HiRISE) images), to selection and certification via sophisticated entry, descent and landing (EDL) simulations. Constraints on elevation ( for sufficient atmosphere to slow the lander), latitude (initially 15°S–5°N and later 3°N–5°N for solar power and thermal management of the spacecraft), ellipse size (130 km by 27 km from ballistic entry and descent), and a load bearing surface without thick deposits of dust, severely limited acceptable areas to western Elysium Planitia. Within this area, 16 prospective ellipses were identified, which lie ∼600 km north of the Mars Science Laboratory (MSL) rover. Mapping of terrains in rapidly acquired CTX images identified especially benign smooth terrain and led to the downselection to four northern ellipses. Acquisition of nearly continuous HiRISE, additional Thermal Emission Imaging System (THEMIS), and High Resolution Stereo Camera (HRSC) images, along with radar data confirmed that ellipse E9 met all landing site constraints: with slopes <15° at 84 m and 2 m length scales for radar tracking and touchdown stability, low rock abundance (<10 %) to avoid impact and spacecraft tip over, instrument deployment constraints, which included identical slope and rock abundance constraints, a radar reflective and load bearing surface, and a fragmented regolith ∼5 m thick for full penetration of the heat flow probe. Unlike other Mars landers, science objectives did not directly influence landing site selection.
Springer
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