用于电能消耗分析的 ARIMA、LSTM 和 SVM 模型的性能比较

Nilam Wahdiaz Azani, Cintia Putri Trisya, Laras Mayangda Sari, Hani Handayani, Muhammad Rizki Miftha Alhamid
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引用次数: 0

摘要

对电能需求的不断变化导致日常生活所需的电力不稳定,因此需要规划和预测需要多少电力负荷,以便始终保证发电质量。因此,有必要使用机器学习方法预测电能消耗量。支持向量机 (SVM)、自回归综合运动平均 (ARIMA) 和长短期记忆 (LSTM) 是经常用于克服预测模式的模型。为了找出预测未来用电量的最佳模型,以及 SVM、LSTM 和 ARIMA 算法在预测用电量方面的表现。本研究将寻找 RMSE 值和预测时间,然后与最佳平均值进行比较。研究结果表明,在使用 RMSE 指标进行的评估中,ARIMA 模型能够预测未来 1 年的用电量,而 SVM 的 RMSE 值远远低于 ARIMA 和 LSTM。在这种情况下,SVM 的 RMSE 为 0.020,而 ARIMA 和 LSTM 的 RMSE 分别为 7.659 和 11.4183。尽管 SVM 的 RMSE 较低,但仍无法足够准确地预测未来 1 年的用电量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance Comparison of ARIMA, LSTM and SVM Models for Electric Energy Consumption Analysis
The changing needs of electrical energy result in the electrical power needed for everyday life being unstable, so planning and predicting how much electrical load is needed so that the electricity generated is always of good quality. So it is necessary to predict the consumption of electrical energy by using forecasting on the machine learning method. Support Vector Machine (SVM), Autoregressive Integrated Motion Average (ARIMA), and Long Short-Term Memory (LSTM) are models that are often used to overcome patterns in predictions. To find out the best models how to predict electricity consumption in the future and how the SVM, LSTM, and ARIMA algorithms perform in predicting electricity consumption. This research will look for the RMSE value and prediction time, then compare it with the best average value. The results of the study show that the ARIMA model is able to predict electricity usage for the next 1 year period, in the evaluation using the RMSE metric, where SVM shows a much lower value than ARIMA and LSTM. In this case, SVM achieved RMSE of 0.020, while ARIMA and LSTM achieved RMSE of 7.659 and 11.4183, respectively. Even though SVM has a lower RMSE, it is still unable to predict electricity usage for the next 1 year with sufficient accuracy.
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