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T1  - Predicting discharge capacity of vegetated compound channels: uncertainty and identifiability of one-dimensional process-based models 
SN  -  / 1027-5606 
UR  - http://hdl.handle.net/10138/336507 
T3  - Hydrology and Earth System Sciences 24 8 (2020) 
A1  - Kiczko, Adam; Västilä, Kaisa; Kozioł, Adam; Kubrak, Janusz; Kubrak, Elzbieta; Krukowski, Marcin 
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PB  - EGU 
Y1  - 2020 
LA  - en 
AB  - Despite the development of advanced process-based methods for estimating the discharge capacity of vegetated river channels, most of the practical one-dimensional modeling is based on a relatively simple divided channel method (DCM) with the Manning flow resistance formula. This study is motivated by the need to improve the reliability of modeling in practical applications while acknowledging the limitations on the availability of data on vegetation properties and related parameters required by ... 
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KW  - earth & environmental sciences; hydrology; earth system sciences; vegetation; one-dimensional modeling; submergence; river channel; inverse problem; floodplain; modeling; hydraulics; calculation; prediction; modelling (creation related to information); uncertainty; parameters; rivers; river channels; methods; performances; optimisation; estimating; differences; vesi- ja ympäristötekniikka; rakennetun ympäristön laitos; ympäristötiede; hydrologia; vegetaatio; kasvillisuus; yksiulotteinen mallintaminen; upotussyvyys; joen kanavat; luhta; tulvatasanne; mallintaminen; hydrauliikka; laskenta; ennustaminen; mallintaminen; epävarmuus; parametrit; joet; mallit (mallintaminen); uomat; menetelmät; esitykset; optimointi; estimointi; erot 
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