长短期记忆网络增强了丹麦全国范围内的降雨径流模型

IF 2 4区 地球科学 Q1 GEOLOGY Geus Bulletin Pub Date : 2022-01-13 DOI:10.34194/geusb.v49.8292
J. Koch, R. Schneider
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引用次数: 10

摘要

本研究利用301个流域的数据,探讨了长短期记忆(LSTM)网络在丹麦全国范围内模拟径流的应用。这是丹麦数据上的第一个LSTM应用程序。结果以丹麦国家水资源模型(dk -模型)为基准,这是一个基于物理的水文模型。克林-古普塔效率中值(KGE)是评估径流预测性能的常用指标(最优值为1),在针对所有集水区进行训练后,从0.7 (dk模型)增加到0.8 (LSTM)。总体而言,LSTM在80%的流域中优于dk模型。尽管有令人信服的KGE评估,但LSTM对水平衡闭合的模拟不太准确。LSTM网络对未测量集水区建模的适用性通过空间分裂样本实验进行了评估。与DK模型相比,20%的空间滞留表明LSTM的性能较差。然而,经过预训练,即对dk模型的模拟数据进行训练得到的权值初始化,LSTM的性能得到了有效的提高。这形成了一个令人信服的论点,支持知识引导的机器学习(ML)范式,将基于物理的模型和ML集成在一起,以训练具有良好泛化能力的鲁棒模型。
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Long short-term memory networks enhance rainfall-runoff modelling at the national scale of Denmark
This study explores the application of long short-term memory (LSTM) networks to simulate runoff at the national scale of Denmark using data from 301 catchments. This is the first LSTM application on Danish data. The results were benchmarked against the Danish national water resources model (DK-model), a physically based hydrological model. The median Kling-Gupta Efficiency (KGE), a common metric to assess performance of runoff predictions (optimum of 1), increased from 0.7 (DK-model) to 0.8 (LSTM) when trained against all catchments. Overall, the LSTM outperformed the DK-model in 80% of catchments. Despite the compelling KGE evaluation, the water balance closure was modelled less accurately by the LSTM. The applicability of LSTM networks for modelling ungauged catchments was assessed via a spatial split-sample experiment. A 20% spatial hold-out showed poorer performance of the LSTM with respect to the DK model. However, after pre-training, that is, weight initialisation obtained from training against simulated data from the DK-model, the performance of the LSTM was effectively improved. This formed a convincing argument supporting the knowledge-guided machine learning (ML) paradigm to integrate physically based models and ML to train robust models that generalise well.
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来源期刊
Geus Bulletin
Geus Bulletin GEOLOGY-
CiteScore
2.80
自引率
17.60%
发文量
8
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