Assessment of Flood Losses with Household Responses: Agent-Based Simulation in an Urban Catchment Area

Yang, Liang Emlyn; Scheffran, Jürgen; Süsser, Diana; Dawson, Richard; Chen, Yongqin David

doi:10.1007/s10666-018-9597-3

Cited by 56 publications

(36 citation statements)

References 54 publications

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“…When the M(V) curve lies above the 45° angle bisector, the value of b is less than 1.0; the smaller the b value, the greater the first flush intensity. A dilution effect was defined for when b is greater than 1.0 25 .…”

Section: Methodsmentioning

confidence: 99%

First flush of non-point source pollution and hydrological effects of LID in a Guangzhou community

Zeng

Huang

Luo

et al. 2019

Sci Rep

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To study the first flush effect of nonpoint source pollution in the Guangzhou community unit, runoff from roads, roofs, and green spaces during three rainfall events was collected and analyzed for pollutants. Nine runoff pollution indices were considered. The dimensionless cumulative curve of pollutant mass vs. volume, the first flush coefficient (b) and the mass first flush ratio (MFFn) were used to assess the first flush effect of different underlying surfaces. The assessment results pointed out that the roof was most prone to first flush effect. And ammonia nitrogen and phosphorus were the main pollutants in the first flush in the study area. For a quantitative analysis of the first flush, the Storm Water Management Model (SWMM) was used to simulate the hydrological effect of low impact development (LID) implementation in the community. The results showed that the first flush strength was reduced after setting LID. And LID measures, such as green roofs and sunken green spaces, contribute to flood control and rainwater purification. This research can be relevant regarding for constructing sponge cities and reducing the pollution caused by the first flush.

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Section: Methodsmentioning

confidence: 99%

First flush of non-point source pollution and hydrological effects of LID in a Guangzhou community

Zeng

Huang

Luo

et al. 2019

Sci Rep

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“…As a result of such advantages, computer simulations have often been used in crisis IDRiM (2020) 10 (1) ISSN: 2185-8322 DOI10.5595/001c.17844 management (Murakami et al 2002) for various purposes. For instance (Yang et al 2018) provide a very realistic model based on field data, to predict the impact of early warnings on population behaviour in terms of reducing material losses from floods. Others focus on realistically modelling the physical flood phenomenon in order to support decisions regarding early warnings for tsunamis (Friedemann et al 2011), based on data from multiple sensors (Behrens et al 2008).…”

Section: Agent-based Simulationsmentioning

confidence: 99%

VigiFlood: Evaluating the Impact of a Change of Perspective on Flood Vigilance

Adam

2020

IDRiM Journal

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Emergency managers receive communication training about the importance of being 'first, right and credible', and taking into account the psychology of their audience and their particular reasoning under stress and risk. But we believe that citizens should be similarly trained about how to deal with risk communication. In particular, such messages necessarily carry a part of uncertainty since most natural risks are difficult to accurately forecast ahead of time. Yet, citizens should keep trusting the emergency communicators even after they made forecasting errors in the past. We have designed and implemented a serious game called Vigiflood, based on a real case study of flash floods hitting the South West of France in October 2018. In this game, the user changes perspective by taking the role of an emergency communicator, having to set the level of vigilance to alert the population, based on uncertain clues. Our hypothesis is that this change of perspective can improve the player's awareness of flood risk, and response to future flood vigilance announcements. We evaluated this game through an online survey where people were asked to answer a questionnaire about flood risk awareness and behavioural intentions before and after playing the game, in order to assess its impact. The results are encouraging, showing improved risk awareness, protective intentions, vigilance, and trust after playing. However, it also suggests that the current "game design" is still poor and unable to engage the general public, in particular school students. Future research will therefore address this issue.

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“…In the context of flood risk management, agent-based models (ABMs) have been used to model evacuation strategies involving agents representing individual members of the public (Dawson, Peppe, & Wang, 2011;Liu, Okada, Shen, & Li, 2010). In addition, ABMs have been utilised to evaluate flood communication strategies on individuals (Haer, Botzen, & Aerts, 2016), analyse the influence of individual behaviour on community flood risk (Tonn & Guikema, 2017), investigate the role of individuals' use of social media in relation to flood evacuation (Du, Cai, Sun, & Minsker, 2017), assess individual household flood response preferences (Yang, Scheffran, Süsser, Dawson, & Chen, 2018) and examine the dynamic evolution of flood risk and vulnerability of homeowners (Dubbelboer, J., Nikolic, J., Jenkins, K., Hall, 2017;Jenkins, Surminski, Hall, & Crick, 2017) In terms of modeling businesses, a recent survey of the use of agent-based simulation in management and organizational studies revealed the highest number of applications being in the areas of operations and logistics, marketing and organizational behaviour (Gómez-Cruz, Loaiza Saa, & Ortega Hurtado, 2017). Beyond the areas reported in this survey, agent-based approaches have been used to study business related issues such as the dynamic formation of supply chains (Wang, Wang, Vogel, Kumar, & Chiu, 2009), cost collaborative management in supply chains (Fu & Fu, 2015) and the collaboration duration of supply chains (Arvitrida, Tako, Robertson, & Robinson, 2017).…”

Section: Modeling Smes' Flood Preparedness Response and Recoverymentioning

confidence: 99%

Agent-based modeling and simulation to assess flood preparedness and recovery of manufacturing small and medium-sized enterprises

Coates

Ahilan

et al. 2019

Engineering Applications of Artificial Intelligence

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Assessment of Flood Losses with Household Responses: Agent-Based Simulation in an Urban Catchment Area

Cited by 56 publications

References 54 publications

First flush of non-point source pollution and hydrological effects of LID in a Guangzhou community

First flush of non-point source pollution and hydrological effects of LID in a Guangzhou community

VigiFlood: Evaluating the Impact of a Change of Perspective on Flood Vigilance

Agent-based modeling and simulation to assess flood preparedness and recovery of manufacturing small and medium-sized enterprises

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