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Two-phase Trajectory Planning Method for Robust Planetary Landing in a Sensor-equipped Area
Author(s) -
Clara Leparoux,
Bruno Herisse,
Frederic Jean
Publication year - 2025
Publication title -
2025 european control conference (ecc)
Language(s) - English
Resource type - Conference proceedings
eISSN - 2996-8895
ISBN - 978-3-907144-12-1
DOI - 10.23919/ecc65951.2025.11186925
Subject(s) - robotics and control systems
This article addresses the planetary landing problem by considering uncertainties and leveraging the presence of a detection area where precise measurements are available. The flight consists of two distinct phases: the first phase, subject to a high level of uncertainties, and the second phase, during which the vehicle is feedback controlled to ensure precise landing. We propose a deterministic optimal control method to plan the trajectory of the initial phase, aiming to minimize fuel consumption for the entire trajectory while satisfying a probabilistic constraint that ensures the vehicle reaches the detection zone with a specified threshold.

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