İhsan Engin Bal scite author profile

Exposure data available to developers of earthquake loss models are often very crudely aggregated spatially, and in such cases very considerable effort can be required to refine the geographical resolution of the building stock inventory. The influence of the geographical resolution of the exposure data for the Sea of Marmara region in Turkey is explored using several different levels of spatial aggregation to estimate the losses due to a single earthquake scenario. The results show that the total damage over an urban area, expressed as a mean damage ratio (MDR), is rather insensitive to the spatial resolution of the exposure data if a sufficiently large number of ground-motion simulations are used. However, the variability of the MDR estimates does reduce as the spatial resolution becomes higher, reducing the number of simulations required, although there appears to be a law of diminishing returns in going to very high exposure data resolution. This is largely due to the inherent and irreducible spatial variability of ground motion, which suggests that if only mean MDR estimates are needed, the effort required to refine the spatial definition of exposure data is not justified.

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Seismic behavior of two exterior beam–column connections made of normal-strength concrete developed for precast construction

Yüksel

Karadogan

Bal³

et al. 2015

Engineering Structures

102

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İhsan Engin Bal

Detailed assessment of structural characteristics of Turkish RC building stock for loss assessment models

Automatic crack classification and segmentation on masonry surfaces using convolutional neural networks and transfer learning

The Influence of Geographical Resolution of Urban Exposure Data in an Earthquake Loss Model for Istanbul

Seismic behavior of two exterior beam–column connections made of normal-strength concrete developed for precast construction

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