A system-theory-based model for monthly river runoff forecasting: model calibration and optimization
River runoff is not only a crucial part of the global water cycle, but it is also an important source for hydropower and an essential element of water balance. This study presents a system-theory-based model for river runoff forecasting taking the Hailiutu River as a case study. The forecasting mode...
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2014-03-01
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| Series: | Journal of Hydrology and Hydromechanics |
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| Online Access: | https://doi.org/10.2478/johh-2014-0006 |
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doaj-8cdd39bbbda8463799853c36ea0983902021-09-06T19:41:39ZengSciendoJournal of Hydrology and Hydromechanics0042-790X2014-03-01621828810.2478/johh-2014-0006johh-2014-0006A system-theory-based model for monthly river runoff forecasting: model calibration and optimizationWu Jianhua0Qian Hui1Li Peiyue2Song Yanxun3School of Environmental Science and Engineering, Chang’an University, No. 126 Yanta Road, Xi’an, 710054, Shaanxi, ChinaSchool of Environmental Science and Engineering, Chang’an University, No. 126 Yanta Road, Xi’an, 710054, Shaanxi, ChinaSchool of Environmental Science and Engineering, Chang’an University, No. 126 Yanta Road, Xi’an, 710054, Shaanxi, ChinaCollege of Geology Engineering and Geomatics, Chang'an University, No. 126 Yanta Road, Xi’an, 710054, Shaanxi, ChinaRiver runoff is not only a crucial part of the global water cycle, but it is also an important source for hydropower and an essential element of water balance. This study presents a system-theory-based model for river runoff forecasting taking the Hailiutu River as a case study. The forecasting model, designed for the Hailiutu watershed, was calibrated and verified by long-term precipitation observation data and groundwater exploitation data from the study area. Additionally, frequency analysis, taken as an optimization technique, was applied to improve prediction accuracy. Following model optimization, the overall relative prediction errors are below 10%. The system-theory-based prediction model is applicable to river runoff forecasting, and following optimization by frequency analysis, the prediction error is acceptable.https://doi.org/10.2478/johh-2014-0006system theoryriver runoffweight functionfrequency analysisuncertainty |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Wu Jianhua Qian Hui Li Peiyue Song Yanxun |
| spellingShingle |
Wu Jianhua Qian Hui Li Peiyue Song Yanxun A system-theory-based model for monthly river runoff forecasting: model calibration and optimization Journal of Hydrology and Hydromechanics system theory river runoff weight function frequency analysis uncertainty |
| author_facet |
Wu Jianhua Qian Hui Li Peiyue Song Yanxun |
| author_sort |
Wu Jianhua |
| title |
A system-theory-based model for monthly river runoff forecasting: model calibration and optimization |
| title_short |
A system-theory-based model for monthly river runoff forecasting: model calibration and optimization |
| title_full |
A system-theory-based model for monthly river runoff forecasting: model calibration and optimization |
| title_fullStr |
A system-theory-based model for monthly river runoff forecasting: model calibration and optimization |
| title_full_unstemmed |
A system-theory-based model for monthly river runoff forecasting: model calibration and optimization |
| title_sort |
system-theory-based model for monthly river runoff forecasting: model calibration and optimization |
| publisher |
Sciendo |
| series |
Journal of Hydrology and Hydromechanics |
| issn |
0042-790X |
| publishDate |
2014-03-01 |
| description |
River runoff is not only a crucial part of the global water cycle, but it is also an important source for hydropower and an essential element of water balance. This study presents a system-theory-based model for river runoff forecasting taking the Hailiutu River as a case study. The forecasting model, designed for the Hailiutu watershed, was calibrated and verified by long-term precipitation observation data and groundwater exploitation data from the study area. Additionally, frequency analysis, taken as an optimization technique, was applied to improve prediction accuracy. Following model optimization, the overall relative prediction errors are below 10%. The system-theory-based prediction model is applicable to river runoff forecasting, and following optimization by frequency analysis, the prediction error is acceptable. |
| topic |
system theory river runoff weight function frequency analysis uncertainty |
| url |
https://doi.org/10.2478/johh-2014-0006 |
| work_keys_str_mv |
AT wujianhua asystemtheorybasedmodelformonthlyriverrunoffforecastingmodelcalibrationandoptimization AT qianhui asystemtheorybasedmodelformonthlyriverrunoffforecastingmodelcalibrationandoptimization AT lipeiyue asystemtheorybasedmodelformonthlyriverrunoffforecastingmodelcalibrationandoptimization AT songyanxun asystemtheorybasedmodelformonthlyriverrunoffforecastingmodelcalibrationandoptimization AT wujianhua systemtheorybasedmodelformonthlyriverrunoffforecastingmodelcalibrationandoptimization AT qianhui systemtheorybasedmodelformonthlyriverrunoffforecastingmodelcalibrationandoptimization AT lipeiyue systemtheorybasedmodelformonthlyriverrunoffforecastingmodelcalibrationandoptimization AT songyanxun systemtheorybasedmodelformonthlyriverrunoffforecastingmodelcalibrationandoptimization |
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