Mathematics – Probability
Scientific paper
Jan 1997
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1997stin...9726063b&link_type=abstract
Conference Paper, GNC, AFM, and MST Conference and Exhibit
Mathematics
Probability
Mars Pathfinder, Mars Surface, Navigation, Deployment, Descent, Flight Control, Landing Sites, Computerized Simulation, Targets, Probability Theory, Parachutes, Algorithms, Applications Programs (Computers)
Scientific paper
On July 4, 1997, after traveling close to 500 million km, the Pathfinder spacecraft successfully completed entry, descent, and landing, coming to rest on the surface of Mars just 27 km from its target point. In the present paper, the atmospheric entry and approach navigation activities required in support of this mission are discussed. In particular, the flight software parameter update and landing site prediction analyses performed by the Pathfinder operations navigation team are described. A suite of simulation tools developed during Pathfinder's design cycle, but extendible to Pathfinder operations, are also presented. Data regarding the accuracy of the primary parachute deployment algorithm is extracted from the Pathfinder flight data, demonstrating that this algorithm performed as predicted. The increased probability of mission success through the software parameter update process is discussed. This paper also demonstrates the importance of modeling atmospheric flight uncertainties in the estimation of an accurate landing site. With these atmospheric effects included, the final landed ellipse prediction differs from the post-flight determined landing site by less then 0.5 km in downtrack.
Braun Robert D.
Kallemeyn Pieter H.
Spencer David A.
Vaughan Robin M.
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