Modeling the high-resolution dynamic  exposure to flooding in a city region

Zhu, X.; Dai, Qiang; Han, Dawei; Zhuo, Lu; Zhu, Shaonan; Zhang, Shuliang

doi:10.5194/hess-23-3353-2019

Cited by 30 publications

(25 citation statements)

References 33 publications

(42 reference statements)

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“…Recent works address the problem of spatiotemporal assessment of risks either from a quantitative perspective (Zhu et al., 2019) or by simulating cascades of faults (Grafenauer, König, Rass, & Schauer, 2018; König & Schauer, 2019) due to critical infrastructure interdependencies. In Zhu et al.…”

Section: Related Workmentioning

confidence: 99%

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A comprehensive system for semantic spatiotemporal assessment of risk in urban areas

Coletti

Nicola

Pietro

et al. 2020

Contingencies & Crisis Mgmt

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Risk assessment of urban areas aims at limiting the impact of harmful events by increasing awareness of their possible consequences. Qualitative risk assessment allows to figure out possible risk situations and to prioritize them, whereas quantitative risk assessment is devoted to measuring risks from data, in order to improve preparedness in case of crisis situations. We propose an automatic approach to comprehensive risk assessment. This leverages on a semantic and spatiotemporal representation of knowledge of the urban area and relies on a software system including: a knowledge base; two components for quantitative and qualitative risk assessments, respectively; and a WebGIS interface. The knowledge base consists of the TERMINUS domain ontology, to represent urban knowledge, and of a geo‐referenced database, including geographical, environmental and urban data as well as temporal data related to the levels of operation of city services. CIPcast DSS is the component devoted to quantitative risk assessment, and WS‐CREAM is the component supporting qualitative risk assessment based on computational creativity techniques. Two case studies concerning the city of Rome (Italy) show how this approach can be used in a real scenario for crisis preparedness. Finally, we discuss issues related to plausibility of risks and objectivity of their assessment.

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Section: Related Workmentioning

confidence: 99%

“…In Zhu et al. (2019), the spatiotemporal distribution of flooding is simulated by using the LISFLOOD‐FP model and the spatial movements of residents are simulated during the urban flooding time period. Instead, in Grafenauer et al.…”

Section: Related Workmentioning

confidence: 99%

A comprehensive system for semantic spatiotemporal assessment of risk in urban areas

Coletti

Nicola

Pietro

et al. 2020

Contingencies & Crisis Mgmt

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“…Over the last decades, there has been an increasing number of studies on flood events for which a sufficient amount of data for verification is available (e.g., stage and discharge relationships, discharge data, accurate rainfall data, satellite flood extent, flood peak watermarks) [9,[21][22][23][24]. However, in ungauged or poorly gauged catchments, flood-related data (i.e., hydrometeorological data and/or flood inundation data such as flooded area and measured water depth-watermarks) are inadequate, both quantitatively and qualitatively.…”

Section: Introductionmentioning

confidence: 99%

Flood Inundation Mapping at Ungauged Basins Using Coupled Hydrometeorological–Hydraulic Modelling: The Catastrophic Case of the 2006 Flash Flood in Volos City, Greece

Papaioannou

Varlas

Terti

et al. 2019

Water

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Nowadays, as extreme weather increasingly threatens human health and economy, early warning system approaches are critical for timely preparedness and response. Towards the implementation of a multi-model forecasting system for flood hazards, this study presents a coupled application of three (3) models: The WRF-ARW weather model, the WRF-Hydro hydrological model, and the HEC-RAS 2D hydraulic model. A flash flood event that occurred on 9 October 2006 in Volos city, Greece, is used as a case study to assess the accuracy of the integrated modelling approach to simulate the flood hydrograph and flood extent in Xerias ungauged catchment. The hydrometeorological simulation results indicated a severe persistent storm over Pelion mountain at the northeast of Volos, as the main factor of the major flash flood and extensive impacts. Historical flood records retrieved by several conventional and non-conventional sources are used to validate the flooded area. Compared to the collected data and prior studies, the generated inundation map of Xerias river is found to realistically capture highly impacted areas which experienced infrastructure damage and human rescues from inundated roads and buildings. Results from our analyses show that the proposed physically-based modelling approach can give reliable inputs into flood risk management.

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“…focus on assessing and minimising the direct risks of floodwater on people, especially when they are under immediate evacuation condition. For this purpose, computer models have been used to evaluate evacuation strategies, including for the analysis of the potential variability in individual people's flood risk state, the lowest-risk pathways, and the time window for issuing an early warning (Aboelata and Bowloes, 2008;Lumbroso et al, 2011;Dawson et al, 2011;Mas et al, 2015;Liu and Lim, 2016;Bernardini et al, 2017;Zhu et al, 2019).…”

mentioning

confidence: 99%

“…For regional scale applications, ABM-based models were developed to simulate immediate crowd evacuation from a city, focusing on moving groups of individuals or household units using cars within a city road network to analyse response time of aware and unaware people to the immediate evacuation warning (Dawson et al, 2011;Mas et al, 2015;Liu and Lim, 2016;Zhu et al, 2019). These simulation models only consider vehicular emergency evacuation, which makes them not suited to simulate the interactive and the collective responses of moving individuals, or pedestrians, in and around small hubs (< 0.5 km × 0.5 km in size), such as shopping centres or sports venues.…”

mentioning

confidence: 99%

Flood-pedestrian simulator for modelling human response dynamics during flood-induced evacuation: Hillsborough stadium case study

Shirvani

Kesserwani

2021

Preprint

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Abstract. The flood-pedestrian simulator uses a parallel approach to couple a hydrodynamic model to a pedestrian model in a single agent-based modelling (ABM) framework using the Graphical Processing Units (GPU). It allows to dynamically exchange and process multiple agent information between the two models. The simulator is augmented with more realistic human-body characteristics and in-model behavioural rules. The new features are implemented in the pedestrian model to factor in age- and gender-related walking speeds for the pedestrians in dry zones with possible acceleration based on a maximum excitement condition. It is also adapted to use age-related moving speeds for pedestrians inside flooded zones, with 13 either a walking condition or a running condition. The walking and running conditions are applicable without and with an existing two-way interaction condition that considers the effects of pedestrian congestion on the floodwater dynamics. A new autonomous change of direction condition is proposed to make way-finding decisions of pedestrians self-automated, based on the changes in the state of the floodwater dynamics or the most popular choice of destination selected by the other pedestrians. The relevance of the newly added characteristics and rules is demonstrated by applying the augmented simulator to reproduce a flood evacuation in a shopping centre test case, which was investigated with the version of the simulator that does not consider age and gender characteristics in the pedestrian model. The augmented simulator is finally applied to study evacuation scenarios for a mass evacuation from the Hillsborough football stadium located in a flood-prone area in Sheffield.

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Modeling the high-resolution dynamic exposure to flooding in a city region

Cited by 30 publications

References 33 publications

A comprehensive system for semantic spatiotemporal assessment of risk in urban areas

A comprehensive system for semantic spatiotemporal assessment of risk in urban areas

Flood Inundation Mapping at Ungauged Basins Using Coupled Hydrometeorological–Hydraulic Modelling: The Catastrophic Case of the 2006 Flash Flood in Volos City, Greece

Flood-pedestrian simulator for modelling human response dynamics during flood-induced evacuation: Hillsborough stadium case study

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