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Volumn 468-469, Issue , 2012, Pages 47-62

A priori parameter estimates for a distributed, grid-based Xinanjiang model using geographically based information

Author keywords

Conceptual model; Diffusion wave; Distributed model; Flood simulation; Parameter estimation; Rainfall runoff

Indexed keywords

ANHUI PROVINCE; BASIN CHARACTERISTICS; CALIBRATION AND VERIFICATION; CANOPY INTERCEPTION; CELL-BASED; CHANNEL SLOPE; COMPUTATIONAL FLOWS; CONCEPTUAL MODEL; DEVELOPED MODEL; DIFFUSION WAVE APPROXIMATION; DIGITAL ELEVATION MODEL; DIRECT CHANNEL; DISTRIBUTED MODELS; DRAINAGE AREA; FINITE-DIFFERENCE SOLUTION; FLOOD EVENT; FLOOD HYDROGRAPHS; FLOOD SIMULATION; FLOW ROUTING; GAUGING STATIONS; GRID SCALE; GRID-BASED; HILLSLOPES; HYDROLOGIC PROCESS; INTERNAL POINTS; LAND USE/LAND COVER; MODEL PERFORMANCE; PARAMETER ESTIMATE; PHYSICALLY BASED; RAINFALL RUNOFF; RAINFALL-RUNOFF MODELS; RECALIBRATIONS; RUNOFF GENERATION; SATURATION EXCESS; SECOND-ORDER ACCURACY; SOIL DATA; SPATIAL AND TEMPORAL VARIABILITY; ST. VENANT EQUATIONS; TIME-SCALES; VARIED PARAMETERS; XINANJIANG MODEL;

EID: 84867099648     PISSN: 00221694     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jhydrol.2012.08.025     Document Type: Article
Times cited : (83)

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