Flood Modeling Using a Synthesis of Multi-Platform LiDAR Data

Turner, Ashleigh; Colby, Jeffrey D.; Csontos, Ryan; Batten, Michael P.

doi:10.3390/w5041533

Cited by 45 publications

(29 citation statements)

References 33 publications

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“…Storm surges correspond to abnormal variations in the free ocean surface that are driven by atmospheric forcing from extra-tropical storms and typhoons [1]. The largest damages in populated and low-lying coastal areas, including the loss of human life and the destruction of property and infrastructure, are usually associated with storm surges and subsequent flooding rather than direct wind effects, particularly if the surge occurs at high tide [2,3].…”

Section: Introductionmentioning

confidence: 99%

Modeling Flood Inundation Induced by River Flow and Storm Surges over a River Basin

Chen

Liu

2014

Water

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Low-lying coastal regions and their populations are at risk during storm surge events and high freshwater discharges from upriver. An integrated storm surge and flood inundation modeling system was used to simulate storm surge and inundation in the Tsengwen River basin and the adjacent coastal area in southern Taiwan. A three-dimensional hydrodynamic model with an unstructured grid was used, which was driven by the tidal elevation at the open boundaries and freshwater discharge at the upriver boundary. The model was validated against the observed water levels for three typhoon events. The simulation results for the model were in reasonable agreement with the observational data. The model was then applied to investigate the effects of a storm surge, freshwater discharge, and a storm surge combined with freshwater discharge during an extreme typhoon event. The super Typhoon Haiyan (2013) was artificially shifted to hit Taiwan: the modeling results showed that the inundation area and depth would cause severe overbank flow and coastal flooding for a 200 year return period flow. A high-resolution grid model is essential for the accurate simulation of storm surges and inundation. OPEN ACCESSWater 2014, 6 3183

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Section: Introductionmentioning

confidence: 99%

Modeling Flood Inundation Induced by River Flow and Storm Surges over a River Basin

Chen

Liu

2014

Water

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“…However, as the economic and processing limitations of laser scan data decrease, data coverage and data availability increase. Moreover, in urban landscapes, campaign cost reduction and representativeness improvement can be achieved by the synergical use of airborne, mobile and terrestrial laser scans (Turner, 2013). Metal mobile masts are particularly difficult to reconstruct from ALS data: to partially overcome this limit, the use of more complex algorithms (Vosselman et al, 2001;Dorninger et al, 2008 or Kada andMcKinley, 2009) for a more accurate reconstruction of the obstacles could reduce the spread between estimated and observed two-way losses.…”

Section: Discussionmentioning

confidence: 99%

Airborne laser scan data: a valuable tool with which to infer weather radar partial beam blockage in urban environments

2016

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Abstract. High-spatial-resolution weather radar observations are of primary relevance for hydrological applications in urban areas. However, when weather radars are located within metropolitan areas, partial beam blockages and clutter by buildings can seriously affect the observations. Standard simulations with simple beam propagation models and digital elevation models (DEMs) are usually not able to evaluate buildings' contribution to partial beam blockages. In recent years airborne laser scanners (ALSs) have evolved to the state-of-the-art technique for topographic data acquisition. Providing small footprint diameters (10-30 cm), ALS data allow accurate reconstruction of buildings and forest canopy heights. Analyzing the three weather C-band radars located in the metropolitan area of Helsinki, Finland, the present study investigates the benefits of using ALS data for quantitative estimations of partial beam blockages. The results obtained applying beam standard propagation models are compared with stratiform 24 h rainfall accumulation to evaluate the effects of partial beam blockages due to constructions and trees. To provide a physical interpretation of the results, the detailed analysis of beam occultations is achieved by open spatial data sets and open-source geographic information systems.

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“…Thus, an improved accuracy level in the modeling of floodplain flow was achieved. Turner et al [10] developed procedures to combine the ground-based terrestrial laser scanner and airborne LiDAR data properly. As compared to a flood event and with the combined datasets, they increased the accuracy levels in flood extent, volume, and maximum flood height than those if the airborne LiDAR data were used alone.…”

Section: Better Remotely Sensed and Geospatial Datasets For Flood Rismentioning

confidence: 99%

Advances in Remote Sensing of Flooding

Wang¹

2015

Water

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Abstract:With the publication of eight original research articles, four types of advances in the remote sensing of floods are achieved. The uncertainty of modeled outputs using precipitation datasets derived from in situ observations and remote sensors is further understood. With the terrestrial laser scanner and airborne light detection and ranging (LiDAR) coupled with high resolution optical and radar imagery, researchers improve accuracy levels in estimating the surface water height, extent, and flow of floods. The unmanned aircraft system (UAS) can be the game changer in the acquisition and application of remote sensing data. The UAS may fly everywhere and every time when a flood event occurs. With the development of urban structure maps, the flood risk and possible damage is well assessed. The flood mitigation plans and response activities become effective and efficient using geographic information system (GIS)-based urban flood vulnerability and risk maps.Keywords: flood; flood risk analyses and mitigation; geographic information system (GIS); mapping flood extent and assessing flood damage; remote sensing and geospatial technologies and datasets

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Flood Modeling Using a Synthesis of Multi-Platform LiDAR Data

Cited by 45 publications

References 33 publications

Modeling Flood Inundation Induced by River Flow and Storm Surges over a River Basin

Modeling Flood Inundation Induced by River Flow and Storm Surges over a River Basin

Airborne laser scan data: a valuable tool with which to infer weather radar partial beam blockage in urban environments

Advances in Remote Sensing of Flooding

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