H. Nguyen, N. Tuteja, Hemantha Perera, A. Raut, Tahir Hameed, Richa Neupane, A. Breda
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GR4J model is chosen for its effectiveness in real-time operational forecasting applications, owing to its simplicity, computational efficiency, and lower data requirements. It has also been tested and used in many streamflow forecasting agencies in France, Australia, and other countries. The three objective functions chosen for this investigation include SDEB (Square-root Daily, Exceedance and Bias) in Source (eWater) generally used for river system planning models, NSE-BC0.2 (Nash-Sutcliffe Efficiency with Box-Cox Transformation set to 0.2) in the Multi-Temporal Hydrological Residual Error (MuTHRE) model used for seasonal streamflow forecasts, and NSE-SCHEF in SWIFT (Short-term Water Information and Forecasting Tools) used for 7-day streamflow forecasts. We investigate how well the three objective functions perform using a deterministic performance evaluation criterion covering low-, medium-to high-flow range. 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引用次数: 0
摘要
:新南威尔士州水务公司为其客户提供大量的水,并在新南威尔士州经营着一个由水坝和河流组成的大型网络。对于操作,我们使用CARM中的河流系统模型,该模型基于河流操作、洪水和储存操作的每日和小时尺度。这些模型使用确定性方法进行流量预测,而不是概率框架。在过去十年中,基于概率风险的水文和水文气候模型在国内外的研究和操作环境中取得了相当大的进展(Bennett等人,2014;McInerney et al., 2020)。我们通过选择不同的目标函数来研究每日GR4J模型在概率预测中的性能。选择GR4J模型是因为其简单、计算效率高、数据要求低,在实时业务预测应用中具有有效性。它还在法国、澳大利亚和其他国家的许多流量预报机构中进行了测试和使用。本研究选择的三个目标函数包括用于河流系统规划模型的源(eWater)中的SDEB(平方根日、超标和偏差),用于季节性流量预测的Multi-Temporal水文残差(MuTHRE)模型中的NSE-BC0.2 (Box-Cox变换设为0.2的Nash-Sutcliffe效率),以及用于7天流量预测的SWIFT(短期水信息和预测工具)中的NSE-SCHEF。我们使用涵盖低、中、高流量范围的确定性性能评估标准来研究这三个目标函数的表现。在拉克兰,纳莫伊皮尔和Murrumbidgee的七个集水区被选为这次调查的对象。对所有七个集水区实施了留出一年的交叉验证方法。图1中提供了一些典型的结果以供参考。的
The influence of different objective functions in GR4J model-on-model performance for streamflow forecasting application
: WaterNSW supplies bulk water to its customers and operates a large network of dams and rivers of NSW. For operations, we use the river system models within CARM that are based on daily and hourly scales for river operations, and flood and storage operations. These models use deterministic approaches for streamflow predictions rather than probabilistic framework. Considerable advances in probabilistic risk-based hydrologic and hydroclimate modelling have been made in research and operational settings over the last decade nationally and overseas (Bennett et al., 2014; McInerney et al., 2020). We investigate the performance of daily GR4J model with the choice of different objective functions for use in probabilistic forecasting. GR4J model is chosen for its effectiveness in real-time operational forecasting applications, owing to its simplicity, computational efficiency, and lower data requirements. It has also been tested and used in many streamflow forecasting agencies in France, Australia, and other countries. The three objective functions chosen for this investigation include SDEB (Square-root Daily, Exceedance and Bias) in Source (eWater) generally used for river system planning models, NSE-BC0.2 (Nash-Sutcliffe Efficiency with Box-Cox Transformation set to 0.2) in the Multi-Temporal Hydrological Residual Error (MuTHRE) model used for seasonal streamflow forecasts, and NSE-SCHEF in SWIFT (Short-term Water Information and Forecasting Tools) used for 7-day streamflow forecasts. We investigate how well the three objective functions perform using a deterministic performance evaluation criterion covering low-, medium-to high-flow range. Seven catchments in Lachlan, Namoi Peel and Murrumbidgee are selected for this investigation. A leave-one-year-out cross-validation approach is implemented for all the seven catchments. Some of the typical results are provided in Figure 1 for reference. The
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