Reinforcement Learning-Based Auto-Optimized Parallel Prediction for Air Conditioning Energy Consumption

Machines Pub Date : 2024-07-12 DOI:10.3390/machines12070471

Chao Gu, Shentao Yao, Yifan Miao, Ye Tian, Yuru Liu, Zhicheng Bao, Tao Wang, Baoyu Zhang, Tao Chen, Weishan Zhang

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Abstract

Air conditioning contributes a high percentage of energy consumption over the world. The efficient prediction of energy consumption can help to reduce energy consumption. Traditionally, multidimensional air conditioning energy consumption data could only be processed sequentially for each dimension, thus resulting in inefficient feature extraction. Furthermore, due to reasons such as implicit correlations between hyperparameters, automatic hyperparameter optimization (HPO) approaches can not be easily achieved. In this paper, we propose an auto-optimization parallel energy consumption prediction approach based on reinforcement learning. It can parallel process multidimensional time series data and achieve the automatic optimization of model hyperparameters, thus yielding an accurate prediction of air conditioning energy consumption. Extensive experiments on real air conditioning datasets from five factories have demonstrated that the proposed approach outperforms existing prediction solutions, with an increase in average accuracy by 11.48% and an average performance improvement of 32.48%.

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基于强化学习的空调能耗自动优化并行预测

空调在全球能源消耗中占很大比例。有效预测能耗有助于降低能耗。传统上，多维空调能耗数据只能按顺序处理每个维度，从而导致特征提取效率低下。此外，由于超参数之间存在隐含相关性等原因，自动超参数优化（HPO）方法并不容易实现。本文提出了一种基于强化学习的自动优化并行能耗预测方法。它可以并行处理多维时间序列数据，实现模型超参数的自动优化，从而准确预测空调能耗。在五个工厂的真实空调数据集上进行的大量实验表明，所提出的方法优于现有的预测方案，平均准确率提高了 11.48%，平均性能提高了 32.48%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Machines

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