EWT_Informer: a novel satellite-derived rainfall–runoff model based on informer

Journal of Hydroinformatics Pub Date : 2023-11-15 DOI:10.2166/hydro.2023.228

Shuyu Wang, Yu Chen, Mohamed Ahmed

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Abstract

An accurate rainfall–runoff observation is critical for giving a warning of a potential damage early enough to allow appropriate response to the disaster. The long short-term memory (LSTM)-based rainfall–runoff model has been proven to be effective in runoff prediction. Previous research has typically utilized multiple information sources as the LSTM training data. However, when there are many sequences of input data, the LSTM cannot get nonlinear valid information between consecutive data. In this paper, a novel informer neural network using empirical wavelet transform (EWT) was first proposed to predict the runoff based only on the single rainfall data. The use of EWT reduced the non-linearity and non-stationarity of runoff data, which increased the accuracy of prediction results. In addition, the model introduced the Fractal theory to divide the rainfall and runoff into three parts, by which the interference caused by excessive data fluctuations could be eliminated. Using 15-year precipitation from the GPM satellite and runoff from the USGS, the model performance was tested. The results show that the EWT_Informer model outperforms the LSTM-based models for runoff prediction. The PCC and training time in EWT_Informer were 0.937, 0.868, and 1 min 3.56 s, respectively, while those provided by the LSTM-based model were 0.854, 0.731, and 4 min 25.9 s, respectively.

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EWT_Informer：基于informer的新型卫星降雨-径流模型

准确的降雨-径流观测对于及早发出潜在损害预警以采取适当的救灾措施至关重要。基于长短期记忆（LSTM）的降雨-径流模型已被证明在径流预测方面非常有效。以往的研究通常利用多个信息源作为 LSTM 的训练数据。然而，当输入数据序列较多时，LSTM 无法获得连续数据之间的非线性有效信息。本文首先提出了一种使用经验小波变换（EWT）的新型信息神经网络，仅根据单次降雨数据预测径流。EWT 的使用降低了径流数据的非线性和非平稳性，提高了预测结果的准确性。此外，该模型还引入了分形理论，将降雨和径流分为三部分，从而消除了数据波动过大造成的干扰。利用 GPM 卫星提供的 15 年降水量和 USGS 提供的径流量，对模型性能进行了测试。结果表明，在径流预测方面，EWT_Informer 模型优于基于 LSTM 的模型。EWT_Informer 模型的 PCC 和训练时间分别为 0.937、0.868 和 1 分 3.56 秒，而基于 LSTM 的模型的 PCC 和训练时间分别为 0.854、0.731 和 4 分 25.9 秒。

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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Journal of Hydroinformatics

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