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Semantic Scholar · Article (AIAA AVIATION 2020 FORUM)

UAS Conflict Resolution in Continuous Action Space Using Deep Reinforcement Learning

Published 2020-06-08 From AIAA AVIATION 2020 FORUM 6 authors

Attribution

This is the abstract and citation. Full text lives at Semantic Scholar — we link out rather than host. All credit to the authors and AIAA AVIATION 2020 FORUM.

Abstract

Verbatim from Semantic Scholar. Not paraphrased, not summarized.

Ensuring safety and providing obstacle conflict alerts to small unmanned aircraft is vital to their integration into civil airspace. There are many techniques for real-time robust drone guidance, but many of them need expensive computation time or large memory requirements, which is not applicable to deploy onboard of an aircraft with limited computation resources. To provide a safe and efficient computational guidance of operations for unmanned aircraft, we provide a framework using deep reinforcement learning algorithm to guide autonomous UAS to their destinations while avoiding the static and moving obstacles through continuous control. After offline training, the model only requires less than 100KB of memory, and the online computation for the conflict resolution advisory only takes 2ms. For the algorithm verification and validation, an airspace simulator is built in Python and numerical experiments show that the trained model can provide accurate and robust guidance with the environment uncertainty.

Authors

  • Jueming Hu
  • Xuxi Yang
  • Weichang Wang
  • Peng Wei
  • Lei Ying
  • Yongming Liu

Keywords

  • Computer Science
  • Engineering

Citation: Jueming Hu, Xuxi Yang, Weichang Wang , et al. (2020). UAS Conflict Resolution in Continuous Action Space Using Deep Reinforcement Learning. AIAA AVIATION 2020 FORUM. Semantic Scholar ID 0c878deb3df879a2be7eddcb64da80f84a93c861. https://doi.org/10.2514/6.2020-2909 ↗