基于智能体的建模和强化学习优化能源系统运行和维护:路径思维解决方案

Proceedings of the 30th European Safety and Reliability Conference and 15th Probabilistic Safety Assessment and Management Conference Pub Date : 1900-01-01 DOI:10.3850/978-981-14-8593-0_5863-CD

L. Pinciroli, P. Baraldi, M. Compare, S. Esmaeilzadeh, Mohammed Farhan, Brett Gohre, Roberto Grugni, L. Manca, E. Zio

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引用次数: 4

摘要

具有预测和健康管理(PHM)功能的能源系统的运行和维护(O&M)的优化可以构建为一个顺序决策过程，可以通过强化学习(RL)来解决。然而，使用强化学习算法需要特定的技能，而对强化学习提出的可能违反直觉的解决方案的理解并不简单。为了避开这两个问题，我们使用了Pathmind，这是一个软件工具，可以在没有深入机器学习知识的情况下有效地利用RL功能。Pathmind在Anylogic环境中编码，Anylogic环境是一种基于代理的仿真软件，简化了系统建模，并允许轻松地可视化优化策略的效果。通过一个缩小规模的风电场案例研究，展示了RL在确定最佳运维策略方面的潜力，并展示了Pathmind和AnyLogic的易用性。

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Agent-based Modeling and Reinforcement Learning for Optimizing Energy Systems Operation and Maintenance: The Pathmind Solution

The optimization of the Operation and Maintenance (O&M) of energy systems equipped with Prognostics and Health Management (PHM) capabilities can be framed as a sequential decision process, which can be addressed by Reinforcement Learning (RL). However, using RL algorithms requires specific skills, whereas the understanding of the possibly counter-intuitive solutions proposed by RL is not straifhtforward. To sidestep both issues, we use Pathmind, a software tool which enables effectively exploiting the RL capabilities without deep knowledge of machine learning. Pathmind is encoded in the Anylogic environment, which is an Agent-Based simulation software that simplifies the system modeling and allows easily visualizing the effects of the optimized policy. A scaled-down wind farm case study is used to demonstrate the potential of RL in identifying an optimal O&M policy and to show the ease of use of Pathmind and AnyLogic.

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Proceedings of the 30th European Safety and Reliability Conference and 15th Probabilistic Safety Assessment and Management Conference

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