Sensitivity and uncertainty-based evaluation and simulation of MIKE SHE model in Guishui River Basin, Beijing, China

Q2 Social Sciences

International Journal of Water Pub Date : 2017-04-25 DOI:10.1504/IJW.2017.10004523

Jing Zhang, Zhen Zheng, Binbin Guo

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引用次数: 1

Abstract

In the process of building a hydrological model, some basin feature parameters are expressed inaccurately. It is an important way to construct models and estimate the uncertainty parameters for evaluating the uncertainty of the overall output. In this paper, an uncertainty-based study was calibrated and evaluated the comprehensive distributed model MIKE SHE to hydrological data in the Guishui River Basin, Beijing of China. The generalised likelihood uncertainty estimation (GLUE) method was used to quantify uncertainties originating from the use of discharge observations and the presence of equifinal solutions. Monte Carlo sampling is randomly generated to 10,000 parameter sets during GLUE calibration. MIKE SHE parameter sets are identified and 5% and 95% uncertainty bounds for monthly streamflow are calculated. The behavioural values of nine individual parameters for MIKE SHE were explored against the likelihood measure values. The results show that more than 50% observations in calibration period fell within the corresponding uncertainty bounds, suggesting a similar level of model performance. The simulation results are corresponded better with the measured flow, but still need to be improved for higher accuracy. There are some relative sensitive and insensitive parameters in the result of uncertainty analysis.

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基于敏感性和不确定性的MIKE SHE模型在贵水河流域的评价与模拟

在建立水文模型的过程中，存在一些流域特征参数表达不准确的问题。构建模型和估计不确定性参数是评估整体产出不确定性的重要途径。本文基于不确定性对北京贵水河流域水文数据的综合分布式模型MIKE SHE进行了标定和评价。使用广义似然不确定性估计(GLUE)方法来量化来自使用放电观测和存在等终解的不确定性。在GLUE校准期间，蒙特卡罗采样随机生成10,000个参数集。确定了MIKE SHE参数集，并计算了月流量的5%和95%不确定性界限。针对似然测量值，探讨了MIKE SHE的9个个体参数的行为值。结果表明，校正期间超过50%的观测值落在相应的不确定性范围内，表明模型性能水平相似。仿真结果与实测流量吻合较好，但仍需改进以提高精度。不确定度分析结果中存在一些相对敏感和不敏感的参数。

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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来源期刊

International Journal of Water Social Sciences-Geography, Planning and Development

CiteScore

0.40

自引率

0.00%

发文量

期刊介绍： The IJW is a fully refereed journal, providing a high profile international outlet for analyses and discussions of all aspects of water, environment and society.