Implementation of bagging in time series forecasting

I. V. Gramovich, D. Musatov, D. Petrusevich
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Abstract

Objectives. The purpose of the article is to build different models of bagging, to compare the accuracy of their forecasts for the test period against standard models, and to draw conclusions about the possibility of further use of the bagging technique in time series modeling.Methods. This study examines the application of bagging to the random component of a time series formed after removing the trend and seasonal part. A bootstrapped series combining into a new random component is constructed. Based on the component thus obtained, a new model of the series is built. According to many authors, this approach allows the accuracy of the time series model to be improved by better estimating the distribution.Results. The theoretical part summarizes the characteristics of the different bagging models. The difference between them comes down to the bias estimate obtained, since the measurements making up the bootstraps are not random. We present a computational experiment in which time series models are constructed using the index of monetary income of the population, the macroeconomic statistics of the Russian Federation, and the stock price of Sberbank. Forecasts for the test period obtained by standard, neural network and bagging-based models for some time series are compared in the computational experiment. In the simplest implementation, bagging showed results comparable to ARIMA and ETS standard models, while and slightly inferior to neural network models for seasonal series. In the case of non-seasonal series, the ARIMA and ETS standard models gave the best results, while bagging models gave close results. Both groups of models significantly surpassed the result of neural network models.Conclusions. When using bagging, the best results are obtained when modeling seasonal time series. The quality of forecasts of seigniorage models is somewhat inferior to the quality of forecasts of neural network models, but is at the same level as that of standard ARIMA and ETS models. Bagging-based models should be used for time series modeling. Different functions over the values of the series when constructing bootstraps should be studied in future work.
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在时间序列预测中实施套袋法
目的。文章的目的是建立不同的套袋模型,与标准模型比较其在测试期间的预测准确性,并就在时间序列建模中进一步使用套袋技术的可能性得出结论。本研究探讨了对去除趋势和季节性部分后形成的时间序列的随机部分应用袋法的问题。我们构建了一个自举序列,并将其组合成一个新的随机分量。在此基础上,建立一个新的序列模型。许多学者认为,这种方法可以通过更好地估计分布来提高时间序列模型的准确性。理论部分总结了不同套袋模型的特点。它们之间的区别在于获得的偏差估计值,因为组成引导带的测量值不是随机的。我们介绍了一个计算实验,在这个实验中,我们使用居民货币收入指数、俄罗斯联邦宏观经济统计数据和俄罗斯联邦储蓄银行的股票价格构建了时间序列模型。在计算实验中,我们比较了标准模型、神经网络模型和基于套袋法的模型对某些时间序列的测试期预测。在最简单的实施中,套袋法的结果与 ARIMA 和 ETS 标准模型相当,而在季节性序列方面则略逊于神经网络模型。对于非季节性序列,ARIMA 和 ETS 标准模型的结果最好,而袋装模型的结果接近。结论。在对季节性时间序列进行建模时,使用套袋法可以获得最佳结果。seigniorage模型的预测质量略逊于神经网络模型,但与标准ARIMA和ETS模型的预测质量处于同一水平。时间序列建模应使用基于 Bagging 的模型。在今后的工作中,应研究在构建 bootstraps 时序列值的不同函数。
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