Robust Deep Reinforcement Learning Control for a Launcher Upper Stage Module with Stability Certificate
Résumé
A Deep Reinforcement Learning (DRL) algorithm is proposed to design the controller accounting for non linearities of the launcher and sloshing dynamics as well as presence of time-delay, bias and saturations on the actuation system. Based on Proximal Policy Optimization (PPO) and Almost Lyapunov functions in an actor-critic scheme, it allows to robustly learn a controller along with stability certificates, in presence of model uncertainties. Simulation results are proposed to illustrate the approach.
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