A novel time-varying grey Fourier model for variable amplitude seasonal fluctuation sequences

IF 3.2 3区工程技术 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Grey Systems-Theory and Application Pub Date : 2024-03-27 DOI:10.1108/gs-10-2023-0101

Xiaomei Liu, Bin Ma, Meina Gao, Lin Chen

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Abstract

Purpose

A time-varying grey Fourier model (TVGFM(1,1,N)) is proposed for the simulation of variable amplitude seasonal fluctuation time series, as the performance of traditional grey models can't catch the time-varying trend well.

Design/methodology/approach

The proposed model couples Fourier series and linear time-varying terms as the grey action, to describe the characteristics of variable amplitude and seasonality. The truncated Fourier order N is preselected from the alternative order set by Nyquist-Shannon sampling theorem and the principle of simplicity, then the optimal Fourier order is determined by hold-out method to improve the robustness of the proposed model. Initial value correction and the multiple transformation are also studied to improve the precision.

Findings

The new model has a broader applicability range as a result of the new grey action, attaining higher fitting and forecasting accuracy. The numerical experiment of a generated monthly time series indicates the proposed model can accurately fit the variable amplitude seasonal sequence, in which the mean absolute percentage error (MAPE) is only 0.01%, and the complex simulations based on Monte-Carlo method testify the validity of the proposed model. The results of monthly electricity consumption in China's primary industry, demonstrate the proposed model catches the time-varying trend and has good performances, where MAPE_F and MAPE_T are below 5%. Moreover, the proposed TVGFM(1,1,N) model is superior to the benchmark models, grey polynomial model (GMP(1,1,N)), grey Fourier model (GFM(1,1,N)), seasonal grey model (SGM(1,1)), seasonal ARIMA model seasonal autoregressive integrated moving average model (SARIMA) and support vector regression (SVR).

Originality/value

The parameter estimates and forecasting of the new proposed TVGFM are studied, and the good fitting and forecasting accuracy of time-varying amplitude seasonal fluctuation series are testified by numerical simulations and a case study.

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变幅季节性波动序列的新型时变灰色傅里叶模型

目的针对传统灰色模型不能很好地捕捉时变趋势的问题，提出了一种时变灰色傅里叶模型（TVGFM(1,1,N)）来模拟变幅季节波动时间序列。根据奈奎斯特-香农抽样定理和简单性原则，从备选阶数集中预选截断傅里叶阶数 N，然后通过保持方法确定最佳傅里叶阶数，以提高所提模型的鲁棒性。研究结果由于采用了新的灰色作用，新模型的适用范围更广，拟合和预测精度更高。对生成的月度时间序列进行的数值实验表明，所提出的模型能够准确拟合变幅季节序列，其中平均绝对百分比误差（MAPE）仅为 0.01%，而基于 Monte-Carlo 方法的复杂模拟则证明了所提出模型的有效性。对中国第一产业月度用电量的分析结果表明，所提出的模型能够捕捉时变趋势并具有良好的性能，其中 MAPEF 和 MAPET 均低于 5%。此外，所提出的 TVGFM(1,1,N) 模型优于灰色多项式模型 (GMP(1,1,N))、灰色傅里叶模型 (GFM(1,1,N))、季节性灰色模型 (SGM(1,1))、季节性自回归整合移动平均模型 (SARIMA) 和支持向量回归 (SVR) 等基准模型。原创性/价值研究了新提出的 TVGFM 的参数估计和预测，并通过数值模拟和案例研究证明了其对时变振幅季节波动序列的良好拟合和预测精度。

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