Regionalization Strategy Guided Long Short-Term Memory Model for Improving Flood Forecasting

IF 3.2 3区 地球科学 Q1 Environmental Science
Kejia Ye, Zhongmin Liang, Hongyu Chen, Mingkai Qian, Yiming Hu, Chenglin Bi, Jun Wang, Binquan Li
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Abstract

Flood forecasting in data-scarce catchments is challenging for hydrologists. To address this issue, a regional long short-term memory model (R-LSTM) is proposed. Given the diverse physical characteristics of sub-catchments, this model scalarises the runoff data based on catchment attributes including area, confluence path length, slope and minimum and maximum runoff values, thereby eliminating the local influence and producing a geomorphological-runoff factor as the model input. To assess the effectiveness of R-LSTMs for flood forecasting in data-scarce basins, the Jiaodong Peninsula in China was selected as the study area. The proposed R-LSTMs are compared with local LSTMs, regional LSTMs that do not use catchment attributes, or regional LSTMs that incorporate catchment attributes in different ways. The results show that R-LSTMs outperform the benchmarking LSTM models, especially in the simulation of flood peaks. The study indicates the potential of regionalization and the benefit of building the scalarised inputs of runoff data for regional LSTM that consider catchment attributes meticulously. The research findings can provide a reference for flood forecasting in data-scarce regions.

Abstract Image

改进洪水预报的区域化战略指导下的长短期记忆模型
对于水文学家来说,在数据稀缺的流域进行洪水预报是一项挑战。为解决这一问题,我们提出了一种区域长短期记忆模型(R-LSTM)。鉴于子流域的物理特征各不相同,该模型根据流域属性(包括面积、汇流路径长度、坡度以及最小和最大径流值)对径流数据进行标度化处理,从而消除局部影响并产生一个地貌径流因子作为模型输入。为了评估 R-LSTM 在数据稀缺流域的洪水预报效果,研究区域选择了中国的胶东半岛。将所提出的 R-LSTM 与本地 LSTM、不使用流域属性的区域 LSTM 或以不同方式结合流域属性的区域 LSTM 进行了比较。结果表明,R-LSTM 优于基准 LSTM 模型,尤其是在洪峰模拟方面。该研究表明了区域化的潜力,以及为区域 LSTM 建立径流数据标量化输入的益处,因为区域 LSTM 会仔细考虑流域属性。研究结果可为数据稀缺地区的洪水预报提供参考。
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来源期刊
Hydrological Processes
Hydrological Processes 环境科学-水资源
CiteScore
6.00
自引率
12.50%
发文量
313
审稿时长
2-4 weeks
期刊介绍: Hydrological Processes is an international journal that publishes original scientific papers advancing understanding of the mechanisms underlying the movement and storage of water in the environment, and the interaction of water with geological, biogeochemical, atmospheric and ecological systems. Not all papers related to water resources are appropriate for submission to this journal; rather we seek papers that clearly articulate the role(s) of hydrological processes.
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