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Deep Reinforcement Learning for Time-Critical Wilderness Search And Rescue Using Drones

May. 2024 ☕️ buy me a coffee



Abstract

Traditional search and rescue methods in wilderness areas can be time-consuming and have limited coverage. Drones offer a faster and more flexible solution, but optimizing their search paths is crucial. This paper explores the use of deep reinforcement learning to create efficient search missions for drones in wilderness environments. Our approach leverages a priori data about the search area and the missing person in the form of a probability distribution map. This allows the deep reinforcement learning agent to learn optimal flight paths that maximize the probability of finding the missing person quickly. Experimental results show that our method achieves a significant improvement in search times compared to traditional coverage planning and search planning algorithms. In one comparison, deep reinforcement learning is found to outperform other algorithms by over \160}% a difference that can mean life or death in real-world search operations. Additionally, unlike previous work, our approach incorporates a continuous action space enabled by cubature, allowing for more nuanced flight patterns.

BibTex

 @misc{ewers_deep_2024,
  title = {Deep {{Reinforcement Learning}} for {{Time-Critical Wilderness Search And Rescue Using Drones}}},
  author = {Ewers, Jan-Hendrik and Anderson, David and Thomson, Douglas},
  year = {2024},
  month = may,
  number = {arXiv:2405.12800},
  eprint = {2405.12800},
  primaryclass = {cs, eess},
  publisher = {arXiv},
  urldate = {2024-05-22},
  archiveprefix = {arxiv},
  copyright = {All rights reserved},
  oa = {true}
}