Using LSTM to Perform Load Predictions for Grid-Interactive Buildings

IF 1 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC SAIEE Africa Research Journal Pub Date : 2024-03-03 DOI:10.23919/SAIEE.2024.10520212
Kyppy N. Simani;Yuval O. Genga;Yu-Chieh J. Yen
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Abstract

Energy consumption from the residential sector forms a large portion of the electricity grid demand. The growing accessibility of residential load profile data presents an opportunity for improved residential load forecasting and the implementation of demand-side management (DSM) strategies. Machine learning is a tool well-suited for predicting stochastic processes, such as residential power usage due to human behavior. Long short-term memory (LSTM) recurrent neural networks are especially suited for predicting time-series data such as electrical load profiles. This paper investigates the impact of LSTM hyperparameters to the predictive performance of models, which include the tradeoffs associated with training data size, horizon ratios, model fidelity, prediction horizon and computational intensity. This paper provides a framework to evaluate the choice of LSTM hyperparameters for understanding trade-offs in a practical application of load profile predictions for the context of Grid-interactive Efficient Buildings (GEBs).
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使用 LSTM 为网格交互式建筑进行负荷预测
住宅部门的能源消耗占电网需求的很大一部分。越来越多的居民负荷曲线数据为改进居民负荷预测和实施需求侧管理 (DSM) 策略提供了机会。机器学习是一种非常适合预测随机过程的工具,例如由人类行为导致的住宅用电情况。长短期记忆 (LSTM) 循环神经网络尤其适合预测时间序列数据,如电力负荷曲线。本文研究了 LSTM 超参数对模型预测性能的影响,其中包括与训练数据大小、水平比率、模型保真度、预测水平和计算强度相关的权衡。本文提供了一个框架,用于评估 LSTM 超参数的选择,以了解电网交互式高效楼宇(GEB)负载曲线预测实际应用中的权衡。
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来源期刊
SAIEE Africa Research Journal
SAIEE Africa Research Journal ENGINEERING, ELECTRICAL & ELECTRONIC-
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