Variable-resolution building exposure modelling for earthquake and tsunami scenario-based risk assessment: an application case in Lima, Peru

Zapata, Juan Camilo Gómez; Brinckmann, Nils; Harig, Sven; Zafrir, Raquel; Pittore, Massimiliano; Cotton, Fabrice; Babeyko, Andrey

doi:10.5194/nhess-21-3599-2021

Cited by 23 publications

(7 citation statements)

References 109 publications

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“…That approach is useful for obtaining exposure descriptors (i.e., number of buildings belonging to a certain class, night-time residents, and replacement costs) under another reference (target) scheme in large-area exposure modelling applications. This can be done in terms of vulnerability descriptors for other hazard-reference schemes (e.g., Gomez-Zapata et al 2021a), thus extending its application beyond the field of seismic risk.…”

Section: Conclusion and Recommendationsmentioning

confidence: 99%

Epistemic uncertainty of probabilistic building exposure compositions in scenario-based earthquake loss models

Zapata

Pittore

Cotton

et al. 2022

Bull Earthquake Eng

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In seismic risk assessment, the sources of uncertainty associated with building exposure modelling have not received as much attention as other components related to hazard and vulnerability. Conventional practices such as assuming absolute portfolio compositions (i.e., proportions per building class) from expert-based assumptions over aggregated data crudely disregard the contribution of uncertainty of the exposure upon earthquake loss models. In this work, we introduce the concept that the degree of knowledge of a building stock can be described within a Bayesian probabilistic approach that integrates both expert-based prior distributions and data collection on individual buildings. We investigate the impact of the epistemic uncertainty in the portfolio composition on scenario-based earthquake loss models through an exposure-oriented logic tree arrangement based on synthetic building portfolios. For illustrative purposes, we consider the residential building stock of Valparaíso (Chile) subjected to seismic ground-shaking from one subduction earthquake. We have found that building class reconnaissance, either from prior assumptions by desktop studies with aggregated data (top–down approach), or from building-by-building data collection (bottom–up approach), plays a fundamental role in the statistical modelling of exposure. To model the vulnerability of such a heterogeneous building stock, we require that their associated set of structural fragility functions handle multiple spectral periods. Thereby, we also discuss the relevance and specific uncertainty upon generating either uncorrelated or spatially cross-correlated ground motion fields within this framework. We successively show how various epistemic uncertainties embedded within these probabilistic exposure models are differently propagated throughout the computed direct financial losses. This work calls for further efforts to redesign desktop exposure studies, while also highlighting the importance of exposure data collection with standardized and iterative approaches.

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Section: Conclusion and Recommendationsmentioning

confidence: 99%

Epistemic uncertainty of probabilistic building exposure compositions in scenario-based earthquake loss models

Zapata

Pittore

Cotton

et al. 2022

Bull Earthquake Eng

Self Cite

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“…However, the good agreement obtained herein cannot necessarily be generalised. The extent to which different resolutions of exposure lead to similar or dissimilar results depends on the scenario (proximity to the fault, spatial variability of site effects, resolution at which site characterisation is available) and the nature of the peril (e.g., Gomez-Zapata et al 2021 ).…”

Section: Application: Earthquake Scenario Damage Calculationmentioning

confidence: 99%

Calculating earthquake damage building by building: the case of the city of Cologne, Germany

Nievas

Pilz

Prehn

et al. 2022

Bull Earthquake Eng

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The creation of building exposure models for seismic risk assessment is frequently challenging due to the lack of availability of detailed information on building structures. Different strategies have been developed in recent years to overcome this, including the use of census data, remote sensing imagery and volunteered graphic information (VGI). This paper presents the development of a building-by-building exposure model based exclusively on openly available datasets, including both VGI and census statistics, which are defined at different levels of spatial resolution and for different moments in time. The initial model stemming purely from building-level data is enriched with statistics aggregated at the neighbourhood and city level by means of a Monte Carlo simulation that enables the generation of full realisations of damage estimates when using the exposure model in the context of an earthquake scenario calculation. Though applicable to any other region of interest where analogous datasets are available, the workflow and approach followed are explained by focusing on the case of the German city of Cologne, for which a scenario earthquake is defined and the potential damage is calculated. The resulting exposure model and damage estimates are presented, and it is shown that the latter are broadly consistent with damage data from the 1978 Albstadt earthquake, notwithstanding the differences in the scenario. Through this real-world application we demonstrate the potential of VGI and open data to be used for exposure modelling for natural risk assessment, when combined with suitable knowledge on building fragility and accounting for the inherent uncertainties.

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“…Achieving higher resolutions was discarded because that would require further assumptions that would increase the uncertainties of such models. Moreover, since the resulting exposure models were input for seismic risk analyses, the use of higher resolution models would lead to important and unnecessary computational problems (e.g., [75,76]) that we preferred to reduce at this stage. This stemmed from the need to address the aleatory uncertainties implicit in a stochastic process, such as by generating thousands of realisations of spatially correlated ground motion fields [76].…”

Section: Preliminary Model: a Simple Downscaling Using Spatial Disagg...mentioning

confidence: 99%

Towards a Sensitivity Analysis in Seismic Risk with Probabilistic Building Exposure Models: An Application in Valparaíso, Chile Using Ancillary Open-Source Data and Parametric Ground Motions

Zapata

Zafrir

Pittore

et al. 2022

IJGI

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Efforts have been made in the past to enhance building exposure models on a regional scale with increasing spatial resolutions by integrating different data sources. This work follows a similar path and focuses on the downscaling of the existing SARA exposure model that was proposed for the residential building stock of the communes of Valparaíso and Viña del Mar (Chile). Although this model allowed great progress in harmonising building classes and characterising their differential physical vulnerabilities, it is now outdated, and in any case, it is spatially aggregated over large administrative units. Hence, to more accurately consider the impact of future earthquakes on these cities, it is necessary to employ more reliable exposure models. For such a purpose, we propose updating this existing model through a Bayesian approach by integrating ancillary data that has been made increasingly available from Volunteering Geo-Information (VGI) activities. Its spatial representation is also optimised in higher resolution aggregation units that avoid the inconvenience of having incomplete building-by-building footprints. A worst-case earthquake scenario is presented to calculate direct economic losses and highlight the degree of uncertainty imposed by exposure models in comparison with other parameters used to generate the seismic ground motions within a sensitivity analysis. This example study shows the great potential of using increasingly available VGI to update worldwide building exposure models as well as its importance in scenario-based seismic risk assessment.

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Variable-resolution building exposure modelling for earthquake and tsunami scenario-based risk assessment: an application case in Lima, Peru

Cited by 23 publications

References 109 publications

Epistemic uncertainty of probabilistic building exposure compositions in scenario-based earthquake loss models

Epistemic uncertainty of probabilistic building exposure compositions in scenario-based earthquake loss models

Calculating earthquake damage building by building: the case of the city of Cologne, Germany

Towards a Sensitivity Analysis in Seismic Risk with Probabilistic Building Exposure Models: An Application in Valparaíso, Chile Using Ancillary Open-Source Data and Parametric Ground Motions

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