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PO-SRPP: A Decentralized Pivoting Path Planning Method for Self-Reconfigurable Satellites

Dong Ye, Bo Wang, Ligang Wu, Ehecatl Antonio del Rio‐Chanona, Zhaowei Sun

2024IEEE Transactions on Industrial Electronics80 citationsDOI

Abstract

While there is ample research on hardware design and reconfiguration control for modular self-reconfigurable satellites, relatively few reconfiguration planning algorithms, especially algorithms used in real-world reconfiguration have been developed. Decentralized path planning, which only uses partial observation for each module to make decision is an important problem for real-world task. This article presents partially observable self-reconfiguration path planning, addressing the reconfiguration path planning problem for a single module using partial observations while aiming to maximize the policy learning efficiency. An end-to-end algorithm is proposed by employing a recurrent Q-learning algorithm and a deep neural network, where a Long Short Term Memory network is used to remember useful features from historical observations. Moreover, a 3-D convolutional neural network is used to automatically extract high-level features from observation data and is shown to significantly increase the learning efficiency. Experiments performed on a test rig of electromagnetic self-reconfigurable satellite verified the potency of the proposed algorithm.

Topics & Concepts

Motion planningComputer sciencePath (computing)SatelliteAerospace engineeringEngineeringRobotComputer networkArtificial intelligenceSpace Satellite Systems and ControlOptimization and Search ProblemsModular Robots and Swarm Intelligence
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