Autor: |
Lapeyrolerie, Marcus, Chapman, Melissa S., Norman, Kari E. A., Boettiger, Carl |
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Zdroj: |
Methods in Ecology & Evolution; Nov2022, Vol. 13 Issue 11, p2649-2662, 14p |
Abstrakt: |
Can machine learning help us make better decisions about a changing planet? In this paper, we illustrate and discuss the potential of a promising corner of machine learning known as deep reinforcement learning (RL) to help tackle the most challenging conservation decision problems. We provide a conceptual and technical introduction to deep RL as well as annotated code so that researchers can adopt, evaluate and extend these approaches.RL explicitly focuses on designing an agent who interacts with an environment that is dynamic and uncertain. Deep RL is the subfield of RL that incorporates deep neural networks into the agent. We train deep RL agents to solve sequential decision‐making problems in setting fisheries quotas and managing ecological tipping points.We show that a deep RL agent is able to learn a nearly optimal solution for the fisheries management problem. For the tipping point problem, we show that a deep RL agent can outperform a sensible rule‐of‐thumb strategy.Our results demonstrate that deep RL has the potential to solve challenging decision problems in conservation. While this potential may be compelling, the challenges involved in successfully deploying RL‐based management to realistic scenarios are formidable—the required expertise and computational cost may place these applications beyond the reach of all but large, international technology firms. Ecologists must establish a better understanding of how these algorithms work and fail if we are to realize this potential and avoid the pitfalls such a transition would bring. We ultimately set forth a research framework based on well‐posed, public challenges so that ecologists and computer scientists can collaborate towards solving hard decision‐making problems in conservation. [ABSTRACT FROM AUTHOR] |
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