通过动态模式分解以及结合最小二乘和向量自回归模型对UT1-UTC和LOD进行短期预测

IF 0.3 Q4 REMOTE SENSING
M. Michalczak, M. Ligas
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引用次数: 0

摘要

本研究采用两种方法对UT1-UTC和LOD进行短期预测,即动态模式分解法(DMD)和最小二乘法与矢量自回归法(LS+VAR)组合。预测实验分别针对 2018-2022 年这一年的时间跨度进行。预测程序从 1 月 1 日开始,到 12 月 31 日结束,随后的 30 天预测之间有 7 天的间隔。大气角动量数据(AAM)被用作辅助时间序列,以提高 LS+VAR 程序中UT1-UTC 和 LOD 的预测精度。此外,还进行了一项实验,在UT1-UTC 和 LOD 时间序列中消除和不消除带状潮汐的影响。采用了两种方法来使用这些方法的最佳转向参数:第一种是自适应方法。第一种是自适应方法,即在每一次预测之前,都必须对预选的参数集进行初步预测,然后使用预测误差最小的参数集进行最终预测;第二种是平均方法,即使用不同的参数集(与自适应方法中的参数相同)进行多次预测,并将最终值计算为这些预测的平均值。根据预报方法和数据组合的不同,UT1-UTC 的平均绝对预报误差(MAPE)在第 10 天为 0.63 毫秒到 1.43 毫秒不等,在第 30 天为 3.07 毫秒到 8.05 毫秒不等。第 10 天的 LOD 相应值从 0.110 毫秒到 0.245 毫秒不等,第 30 天的 LOD 相应值从 0.148 毫秒到 0.325 毫秒不等。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Short-term prediction of UT1-UTC and LOD via Dynamic Mode Decomposition and combination of least-squares and vector autoregressive model
This study presents a short-term forecast of UT1-UTC and LOD using two methods, i.e. Dynamic Mode Decomposition (DMD) and combination of Least-Squares and Vector Autoregression (LS+VAR). The prediction experiments were performed separately for yearly time spans, 2018-2022. The prediction procedure started on January 1 and ended on December 31, with 7-day shifts between subsequent 30-day forecasts. Atmospheric Angular Momentum data (AAM) were used as an auxiliary time series to potentially improve the prediction accuracy of UT1-UTC and LOD in LS+VAR procedure. An experiment was also conducted with and without elimination of effect of zonal tides from UT1-UTC and LOD time series. Two approaches to using the best steering parameters for the methods were applied:. First, an adaptive approach, which observes the rule that before every single forecast, a preliminary one must be performed on the pre-selected sets of parameters, and the one with the smallest prediction error is then used for the final prediction; and second, an averaged approach, whereby several forecasts are made with different sets of parameters (the same parameters as in adaptive approach) and the final values are calculated as the averages of these predictions. Depending on the method and data combination mean absolute prediction errors (MAPE) for UT1-UTC vary from 0.63 ms to 1.43ms for the 10th day and from 3.07 ms to 8.05ms for the 30th day of the forecast. Corresponding values for LOD vary from 0.110 ms to 0.245 ms for the 10th day and from 0.148 ms to 0.325 ms for the 30th day.
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自引率
28.60%
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审稿时长
12 weeks
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