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Deep Reinforcement Learning-Based Accurate Control of Planetary Soft Landing

Xibao Xu, Yushen Chen, Chengchao Bai

2021Sensors21 citationsDOIOpen Access PDF

Abstract

Planetary soft landing has been studied extensively due to its promising application prospects. In this paper, a soft landing control algorithm based on deep reinforcement learning (DRL) with good convergence property is proposed. First, the soft landing problem of the powered descent phase is formulated and the theoretical basis of Reinforcement Learning (RL) used in this paper is introduced. Second, to make it easier to converge, a reward function is designed to include process rewards like velocity tracking reward, solving the problem of sparse reward. Then, by including the fuel consumption penalty and constraints violation penalty, the lander can learn to achieve velocity tracking goal while saving fuel and keeping attitude angle within safe ranges. Then, simulations of training are carried out under the frameworks of Deep deterministic policy gradient (DDPG), Twin Delayed DDPG (TD3), and Soft Actor Critic (SAC), respectively, which are of the classical RL frameworks, and all converged. Finally, the trained policy is deployed into velocity tracking and soft landing experiments, results of which demonstrate the validity of the algorithm proposed.

Topics & Concepts

Reinforcement learningSoft landingDescent (aeronautics)Convergence (economics)Computer scienceFuel efficiencyTrajectoryControl theory (sociology)Tracking (education)Gradient descentFunction (biology)Process (computing)Property (philosophy)Penalty methodOptimal controlControl (management)Mathematical optimizationArtificial intelligenceEngineeringMathematicsArtificial neural networkAerospace engineeringPsychologyPhilosophyMacroeconomicsPedagogyEconomic growthBiologyOperating systemEpistemologyEvolutionary biologyPhysicsAstronomyEconomicsSpacecraft Dynamics and ControlAerospace Engineering and Energy SystemsSpace Satellite Systems and Control
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