Forecasting Regional Ionospheric TEC Maps over China Using BiConvGRU Deep Learning

Remote. Sens. Pub Date : 2023-07-05 DOI:10.3390/rs15133405
Jun Tang, Zhengyu Zhong, Jiacheng Hu, Xuequn Wu
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Abstract

In this paper, we forecasted the ionospheric total electron content (TEC) over the region of China using the bidirectional convolutional gated recurrent unit (BiConvGRU) model. We first generated the China Regional Ionospheric Maps (CRIMs) using GNSS observations provide by the Crustal Movement Observation Network of China (CMONOC). We then used gridded TEC maps from 2015 to 2018 with a 1 h interval from the CRIMs as the dataset, including quiet periods and storm periods of ionospheric TEC. The BiConvGRU model was then utilized to forecast the ionospheric TEC across China for the year 2018. The forecasted TEC was compared with the TEC from the International Reference Ionosphere (IRI-2016), Convolutional Long Short-Term Memory (ConvLSTM), Convolutional Gated Recurrent Unit (ConvGRU), Bidirectional Convolutional Long Short-Term Memory (BiConvLSTM), and the 1-day Predicted Global Ionospheric Map (C1PG) provided by the Center for Orbit Determination in Europe (CODE). In addition, indices including Kp, ap, Dst and F10.7 were added to the training dataset to improve the forecasting accuracy of the model (-A indicates no indices, while -B indicates with indices). The results verified that the prediction accuracies of the models integrated with these indices were significantly improved, especially during geomagnetic storms. The BiConvGRU-B model presented a decrease of 41.5%, 22.3%, and 13.2% in the root mean square error (RMSE) compared to the IRI-2016, ConvGRU, and BiConvLSTM-B models during geomagnetic storm days. Furthermore, at a specific grid point, the BiConvGRU-B model showed a decrease of 42.6%, 49.1%, and 31.9% in RMSE during geomagnetic quiet days and 30.6%, 34.1%, and 15.1% during geomagnetic storm days compared to the IRI-2016, C1PG, and BiConvLSTM-B models, respectively. In the cumulative percentage analysis, the BiConvGRU-B model had a significantly higher percentage of mean absolute error (MAE) within the range of 0–1 TECU in all seasons compared to the BiConvLSTM-B model. Meanwhile, the BiConvGRU-B model outperformed the BiConvLSTM-B model with lower RMSE for each month of 2018.
利用bicconvgru深度学习预测中国区域电离层TEC图
本文采用双向卷积门控循环单元(BiConvGRU)模式对中国地区电离层总电子含量(TEC)进行了预报。我们首先利用中国地壳运动观测网(CMONOC)提供的GNSS观测数据生成了中国区域电离层地图(CRIMs)。然后,我们使用2015年至2018年栅格化的TEC图作为数据集,其中包括电离层TEC的平静期和风暴期,间隔时间为1小时。利用BiConvGRU模式对2018年中国电离层TEC进行了预测。将预测的TEC与国际参考电离层(IRI-2016)、卷积长短期记忆(ConvLSTM)、卷积门控循环单元(ConvGRU)、双向卷积长短期记忆(BiConvLSTM)和欧洲定轨中心(CODE)提供的1天预测全球电离层图(C1PG)的TEC进行了比较。此外,在训练数据集中增加Kp、ap、Dst和F10.7等指标,提高模型的预测精度(-A表示无指标,-B表示有指标)。结果表明,综合这些指标的模式预报精度有了显著提高,特别是在地磁风暴期间。与IRI-2016、ConvGRU和BiConvLSTM-B模型相比,BiConvGRU-B模型在地磁暴日期间的均方根误差(RMSE)分别降低了41.5%、22.3%和13.2%。在特定格点上,BiConvGRU-B模式在地磁平静日的RMSE分别比ir -2016、C1PG和BiConvLSTM-B模式降低42.6%、49.1%和31.9%,在地磁风暴日的RMSE分别比BiConvLSTM-B模式降低30.6%、34.1%和15.1%。在累积百分比分析中,BiConvGRU-B模式各季节在0-1 TECU范围内的平均绝对误差(MAE)百分比显著高于BiConvLSTM-B模式。同时,BiConvGRU-B模型在2018年的每个月都表现优于BiConvLSTM-B模型,RMSE较低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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