2022
DOI: 10.3390/w14142241
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Improving Daily Streamflow Forecasting Using Deep Belief Net-Work Based on Flow Regime Recognition

Abstract: Streamflow forecasting is of great significance for water resources planning and management. In recent years, numerous data-driven models have been widely used for streamflow forecasting. However, the traditional single data-driven model ignores the utilization of different streamflow regimes. This study proposed an integrated framework for daily streamflow forecasting based on the regime recognition of flow sequences. The framework integrates self-organizing maps (SOM) for identifying streamflow sub-sequences… Show more

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Cited by 5 publications
(2 citation statements)
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“…Hydrological studies typically divide streamflow into baseflow and excess flow, but streamflow generation is a complex process involving multiple stages, including the ascending and descending limbs of a hydrograph and its baseflow [152,153]. The distinct segments of a flow hydrograph are generated by a range of physical watershed mechanisms [154].…”
Section: Hydrograph Segmentingmentioning
confidence: 99%
See 1 more Smart Citation
“…Hydrological studies typically divide streamflow into baseflow and excess flow, but streamflow generation is a complex process involving multiple stages, including the ascending and descending limbs of a hydrograph and its baseflow [152,153]. The distinct segments of a flow hydrograph are generated by a range of physical watershed mechanisms [154].…”
Section: Hydrograph Segmentingmentioning
confidence: 99%
“…They used pattern recognition to build ANN and SVM models. Furthermore, Shen et al [153] segmented a hydrograph into baseflow, rising limb, and falling limb using the self-organizing map (SOM) and then grouped the hydro-meteorological data accordingly to improve flow prediction. [153] Improved peak values and higher accuracy.…”
Section: Hydrograph Segmentingmentioning
confidence: 99%