A Framework for Approximating Perturbed Optimal Control Problems
Optimization and Control
2025-04-01 v2 Numerical Analysis
Numerical Analysis
Abstract
We consider trajectory optimal control problems in which parameter uncertainty limits the applicability of control trajectories computed prior to travel. Hence, efficient trajectory adjustment is needed to ensure successful travel. However, it is often prohibitive or impossible to recalculate the optimal control in-transit due to strict time constraints or limited onboard computing resources. Thus, we propose a framework for quick and accurate trajectory approximations by using post-optimality sensitivity information. This allows the reduction of uncertain parameter space and an instantaneous approximation of the new optimal controller while using sensitivity data computed and stored pretransit.
Cite
@article{arxiv.2408.09546,
title = {A Framework for Approximating Perturbed Optimal Control Problems},
author = {Riley Link and Ethan Ebbighausen},
journal= {arXiv preprint arXiv:2408.09546},
year = {2025}
}