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Optuna Tuning Results PPO Reinforcement Learning Hyperparameters Performance

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doi.org2025-03-22 收录
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http://doi.org/10.17632/sjp82gkxgz.1
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Systematic hyperparameter tuning using Optuna was expected to improve PPO model performance in a multi-microgrid environment. We hypothesized that optimizing hyperparameters like learning rate and network architecture would enhance model performance, reflected in increased mean reward and training stability. Data Overview: Dataset: Results from hyperparameter tuning of a PPO model in a multi-microgrid environment Contents: Hyperparameter settings and performance metrics. Data Collection Process: Sampling: Hyperparameters sampled by Optuna and tested by training PPO for 500,000 timesteps Use the command tensorboard --logdir=./Logs/PPO_1 to visualize the data with TensorBoard.

预期通过 Optuna 进行的系统化超参数调优将提升多微电网环境中 PPO 模型的性能。我们假设优化学习率、网络架构等超参数将增强模型性能,体现在平均奖励的增加和训练稳定性的提升。 数据概览: 数据集:多微电网环境中 PPO 模型超参数调优的结果 内容:超参数设置和性能指标。 数据收集过程: 样本:Optuna 采样的超参数,通过训练 PPO 进行 500,000 个时间步长的测试。 使用命令 tensorboard --logdir=./Logs/PPO_1 可通过 TensorBoard 可视化数据。
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