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Improved Directional State Transition Tensors for Accurate Aerocapture Performance Analysis

Published 13 Dec 2025 in eess.SY | (2512.12475v1)

Abstract: Aerocapture is a unique challenge for semi-analytical propagation because its nonconservative dynamics lead to force magnitudes that vary substantially across the trajectory. State transition tensors (STTs), higher-order Taylor series expansions of the solution flow, have been widely used as a computationally efficient semi-analytical propagation method for orbital scenarios, but have not previously been applied to aerocapture. However, obtaining the higher-order STTs requires integrating exponentially more equations. Directional state transition tensors (DSTTs) mitigate this cost by projecting the state into a reduced-dimension basis. This work develops novel dynamics analysis techniques to identify effective bases for this reduction, including augmented higher-order Cauchy Green tensors tailored to quantities of interest such as apoapsis radius. Results show that DSTTs constructed along these bases significantly reduce computational cost while maintaining accuracy in apoapsis and energy prediction. In particular, certain of these DSTTs outperform traditional DSTTs in nonlinear perturbation propagation for key state subsets and quantities of interest. These results establish STTs and DSTTs as practical tools for aerocapture performance analysis to enable robust guidance and navigation.

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