Towards automatic calibration of 2-D flood propagation models

Fabio, Pamela; Aronica, Giuseppe Tito; Apel, Heiko

doi:10.5194/hess-14-911-2010

Cited by 33 publications

(30 citation statements)

References 34 publications

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“…The ranges are comparable to those published in hydraulic text books and other publications (Chow et al, 1988;Werner et al, 2005;Pappenberger et al, 2007b;Fabio et al, 2010). The ranges chosen enclose the values typically expected for the flow conditions, but are also large enough in order to enable compensation of model errors -most likely geometric errors -by the calibration.…”

Section: Parameter Classificationsupporting

confidence: 64%

“…Automatic calibration adjusts parameters automatically according to a specified search scheme optimising numerical measures of goodness of fit of the model results to the data. Automatic calibration gained increasing popularity in the past decades, because it alleviates the chief drawbacks of manual approaches which are subjective, tedious, much dependent on the expertise of modellers, and need huge amount of labour (Duan et al, 1993;Madsen, 2000;Fabio et al, 2010). A lot of research has been carried out for developing automated calibration routines or applying them to a large number of water-related applications (Duan et al, 1992;Solomatine et al, 1999;Skahill and Doherty, 2006;Bárdossy and Singh, 2008).…”

Section: Introductionmentioning

confidence: 99%

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Multi-objective automatic calibration of hydrodynamic models utilizing inundation maps and gauge data

Dũng

Merz

Bàrdossy

et al. 2011

Hydrol. Earth Syst. Sci.

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Abstract. Automatic and multi-objective calibration of hydrodynamic models is -compared to other disciplines like e.g. hydrology -still underdeveloped. This has mainly two reasons: the lack of appropriate data and the large computational demand in terms of CPU-time. Both aspects are aggravated in large-scale applications. However, there are recent developments that improve the situation on both the data and computing side. Remote sensing, especially radarbased techniques proved to provide highly valuable information on flood extents, and in case high precision DEMs are present, also on spatially distributed inundation depths. On the computing side the use of parallelization techniques brought significant performance gains. In the presented study we build on these developments by calibrating a large-scale 1-dimensional hydrodynamic model of the whole Mekong Delta downstream of Kratie in Cambodia: we combined insitu data from a network of river gauging stations, i.e. data with high temporal but low spatial resolution, with a series of inundation maps derived from ENVISAT Advanced Synthetic Aperture Radar (ASAR) satellite images, i.e. data with low temporal but high spatial resolution, in an multiobjective automatic calibration process. It is shown that an automatic, multi-objective calibration of hydrodynamic models, even of such complexity and on a large scale and complex as a model for the Mekong Delta, is possible. Furthermore, the calibration process revealed model deficiencies in the model structure, i.e. the representation of the dike system in Vietnam, which would have been difficult to detect by a standard manual calibration procedure.Correspondence to: N. V. Dung (dung@gfz-potsdam.de)

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Section: Parameter Classificationsupporting

confidence: 64%

Section: Introductionmentioning

confidence: 99%

Multi-objective automatic calibration of hydrodynamic models utilizing inundation maps and gauge data

Dũng

Merz

Bàrdossy

et al. 2011

Hydrol. Earth Syst. Sci.

Self Cite

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“…Among them, the river roughness coefficient was the most important and sensitive parameter. River roughness was represented in the model as Manning coefficients, which we initially estimated based on published values corresponding to particular types of rivers and canals (Chow, 1959;Fabio et al, 2010;Dung et al, 2011). First, referring to Chow (1959), we set the Manning coefficients as 0.020 (irrigation channel, straight, on hard-packed smooth sand), 0.025 (earth channel excavated in alluvial silt soil, with deposits of sand on the bottom and grass growth), and 0.033 (natural channel, somewhat irregular side slopes, very little variation in cross section).…”

Section: Model Setup and Data Preparationmentioning

confidence: 99%

Assessing impacts of dike construction on the flood dynamics of the Mekong Delta

Tran

Halsema

Hellegers

et al. 2018

Hydrol. Earth Syst. Sci.

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Abstract. Recent flood dynamics of the Mekong Delta have raised concerns about an increased flood risk downstream in the Vietnamese Mekong Delta. Accelerated high dike building on the floodplains of the upper delta to allow triple cropping of rice has been linked to higher river water levels in the downstream city of Can Tho. This paper assesses the hydraulic impacts of upstream dike construction on the flood hazard downstream in the Vietnamese Mekong Delta. We combined the existing one-dimensional (1-D) Mekong Delta hydrodynamic model with a quasi-two-dimensional (2-D) approach. First we calibrated and validated the model using flood data from 2011 and 2013. We then applied the model to explore the downstream water dynamics under various scenarios of high dike construction in An Giang Province and the Long Xuyen Quadrangle. Calculations of water balances allowed us to trace the propagation and distribution of flood volumes over the delta under the different scenarios. Model results indicate that extensive construction of high dikes on the upstream floodplains has had limited effect on peak river water levels downstream in Can Tho. Instead, the model shows that the impacts of dike construction, in terms of peak river water levels, are concentrated and amplified in the upstream reaches of the delta. According to our water balance analysis, river water levels in Can Tho have remained relatively stable, as greater volumes of floodwater have been diverted away from the Long Xuyen Quadrangle than the retention volume lost due to dike construction. Our findings expand on previous work on the impacts of water control infrastructure on flood risk and floodwater regimes across the delta.

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“…For example, Fabio et al . () used 390 flood depths points to calibrate a comparatively simple 2D flood propagation model. The equifinality of the parameter sets showed that the model structure is not sufficient to properly describe the information content of the calibration data.…”

Section: Lessons Learnedmentioning

confidence: 99%

A review of low‐cost space‐borne data for flood modelling: topography, flood extent and water level

Yan

Baldassarre

Solomatine

et al. 2015

Hydrological Processes

125

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During the last two decades, remote sensing data have led to tremendous progress in advancing flood inundation modelling. In particular, low‐cost space‐borne data can be invaluable for large‐scale flood studies in data‐scarce areas. Various satellite products yield valuable information such as land surface elevation, flood extent and water level, which could potentially contribute to various flood studies. An increasing number of research studies have been dedicated to exploring those low‐cost data towards building, calibration and evaluation, and remote‐sensed information assimilation into hydraulic models. This paper aims at reviewing these recent scientific efforts on the integration of low‐cost space‐borne remote sensing data with flood modelling. Potentials and limitations of those data in flood modelling are discussed. This paper also introduces the future satellite missions and anticipates their likely impacts in flood modelling. Copyright © 2015 John Wiley & Sons, Ltd.

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Towards automatic calibration of 2-D flood propagation models

Cited by 33 publications

References 34 publications

Multi-objective automatic calibration of hydrodynamic models utilizing inundation maps and gauge data

Multi-objective automatic calibration of hydrodynamic models utilizing inundation maps and gauge data

Assessing impacts of dike construction on the flood dynamics of the Mekong Delta

A review of low‐cost space‐borne data for flood modelling: topography, flood extent and water level

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