TBMG-16796: Risk-Constrained Dynamic Programming for Optimal Mars Entry, Descent, and Landing - Magazine Article

Abstract

Content: A chance-constrained dynamic programming algorithm was developed that is capable of making optimal sequential decisions within a user-specified risk bound. This work handles stochastic uncertainties over multiple stages in the CEMAT (Combined EDL-Mobility Analyses Tool) framework. It was demonstrated by a simulation of Mars entry, descent, and landing (EDL) using real landscape data obtained from the Mars Reconnaissance Orbiter.

Meta Tags

Topics: Optimization
Simulation and modeling
Mathematical models
Tools and equipment

Details

Citation: "Risk-Constrained Dynamic Programming for Optimal Mars Entry, Descent, and Landing," Mobility Engineering, July 1, 2013.

Additional Details

Publisher: Tech Briefs Media Group

Published: Jul 1, 2013

Product Code: TBMG-16796

Content Type: Magazine Article

Language: English