Testing new sources of topographic data for flood propagation modelling under structural, parameter and observation uncertainty

Micah M. Mukolwe; Kun Yan; Giuliano Di Baldassarre; Dimitri P. Solomatine

doi:10.1080/02626667.2015.1019507

Testing new sources of topographic data for flood propagation modelling under structural, parameter and observation uncertainty

Micah M. Mukolwe, Kun Yan^*, Giuliano Di Baldassarre, Dimitri P. Solomatine

^*Corresponding author for this work

Water Resources

Research output: Contribution to journal › Article › Scientific › peer-review

13 Citations (Scopus)

Abstract

This study assessed the utility of EUDEM, a recently released digital elevation model, to support flood inundation modelling. To this end, a comparison with other topographic data sources was performed (i.e. LIDAR, light detection and ranging; SRTM, Shuttle Radar Topographic Mission) on a 98-km reach of the River Po, between Cremona and Borgoforte (Italy). This comparison was implemented using different model structures while explicitly accounting for uncertainty in model parameters and upstream boundary conditions. This approach facilitated a comprehensive assessment of the uncertainty associated with hydraulic modelling of floods. For this test site, our results showed that the flood inundation models built on coarse resolutions data (EUDEM and SRTM) and simple one-dimensional model structure performed well during model evaluation. Editor Z.W. Kundzewicz; Associate editor S. Weijs

Original language	English
Pages (from-to)	1707-1715
Number of pages	9
Journal	Hydrological Sciences Journal
Volume	61
Issue number	9
DOIs	https://doi.org/10.1080/02626667.2015.1019507
Publication status	Published - 3 Jul 2016

Keywords

EUDEM
Flood modelling
SRTM
Topography
Uncertainty

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10.1080/02626667.2015.1019507

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abstract = "This study assessed the utility of EUDEM, a recently released digital elevation model, to support flood inundation modelling. To this end, a comparison with other topographic data sources was performed (i.e. LIDAR, light detection and ranging; SRTM, Shuttle Radar Topographic Mission) on a 98-km reach of the River Po, between Cremona and Borgoforte (Italy). This comparison was implemented using different model structures while explicitly accounting for uncertainty in model parameters and upstream boundary conditions. This approach facilitated a comprehensive assessment of the uncertainty associated with hydraulic modelling of floods. For this test site, our results showed that the flood inundation models built on coarse resolutions data (EUDEM and SRTM) and simple one-dimensional model structure performed well during model evaluation. Editor Z.W. Kundzewicz; Associate editor S. Weijs",

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AU - Mukolwe, Micah M.

AU - Yan, Kun

AU - Di Baldassarre, Giuliano

AU - Solomatine, Dimitri P.

PY - 2016/7/3

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N2 - This study assessed the utility of EUDEM, a recently released digital elevation model, to support flood inundation modelling. To this end, a comparison with other topographic data sources was performed (i.e. LIDAR, light detection and ranging; SRTM, Shuttle Radar Topographic Mission) on a 98-km reach of the River Po, between Cremona and Borgoforte (Italy). This comparison was implemented using different model structures while explicitly accounting for uncertainty in model parameters and upstream boundary conditions. This approach facilitated a comprehensive assessment of the uncertainty associated with hydraulic modelling of floods. For this test site, our results showed that the flood inundation models built on coarse resolutions data (EUDEM and SRTM) and simple one-dimensional model structure performed well during model evaluation. Editor Z.W. Kundzewicz; Associate editor S. Weijs

AB - This study assessed the utility of EUDEM, a recently released digital elevation model, to support flood inundation modelling. To this end, a comparison with other topographic data sources was performed (i.e. LIDAR, light detection and ranging; SRTM, Shuttle Radar Topographic Mission) on a 98-km reach of the River Po, between Cremona and Borgoforte (Italy). This comparison was implemented using different model structures while explicitly accounting for uncertainty in model parameters and upstream boundary conditions. This approach facilitated a comprehensive assessment of the uncertainty associated with hydraulic modelling of floods. For this test site, our results showed that the flood inundation models built on coarse resolutions data (EUDEM and SRTM) and simple one-dimensional model structure performed well during model evaluation. Editor Z.W. Kundzewicz; Associate editor S. Weijs

KW - EUDEM

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KW - Uncertainty

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Testing new sources of topographic data for flood propagation modelling under structural, parameter and observation uncertainty

Abstract

Keywords

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