G. Hartmann scite author profile

G. Hartmann

3Publications

41Citation Statements Received

3Citation Statements Given

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University of Stuttgart

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Investigation of the transferability of hydrological models and a method to improve model calibration

Hartmann

Bàrdossy

2005

Adv. Geosci.

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Abstract. In order to find a model parameterization such that the hydrological model performs well even under different conditions, appropriate model performance measures have to be determined. A common performance measure is the Nash Sutcliffe efficiency. Usually it is calculated comparing observed and modelled daily values. In this paper a modified version is suggested in order to calibrate a model on different time scales simultaneously (days up to years). A spatially distributed hydrological model based on HBV concept was used. The modelling was applied on the Upper Neckar catchment, a mesoscale river in south western Germany with a basin size of about 4000 km 2 . The observation period 1961-1990 was divided into four different climatic periods, referred to as "warm", "cold", "wet" and "dry". These sub periods were used to assess the transferability of the model calibration and of the measure of performance. In a first step, the hydrological model was calibrated on a certain period and afterwards applied on the same period. Then, a validation was performed on the climatologically opposite period than the calibration, e.g. the model calibrated on the cold period was applied on the warm period. Optimal parameter sets were identified by an automatic calibration procedure based on Simulated Annealing. The results show, that calibrating a hydrological model that is supposed to handle short as well as long term signals becomes an important task. Especially the objective function has to be chosen very carefully.

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Preface "Integration of hydrological models on different spatial and temporal scales"

Barthel¹,

Götzinger²,

Hartmann³

et al. 2006

Adv. Geosci.

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Investigation of evapotranspiration concepts in hydrological modelling for climate change impact assessment

Hartmann¹

2007

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G. Hartmann

Investigation of the transferability of hydrological models and a method to improve model calibration

Preface "Integration of hydrological models on different spatial and temporal scales"

Investigation of evapotranspiration concepts in hydrological modelling for climate change impact assessment

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G. Hartmann

Investigation of the transferability of hydrological models and a method to improve model calibration

Preface &quot;Integration of hydrological models on different spatial and temporal scales&quot;

Investigation of evapotranspiration concepts in hydrological modelling for climate change impact assessment

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Product

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Preface "Integration of hydrological models on different spatial and temporal scales"