Post-earthquake regional structural damage evaluation based on artificial neural networks considering variant structural properties

The application of artificial neural networks (ANN) to regional seismic damage evaluation is still challenging due to variant structural properties and high computing requirements. This study aims to develop an ANN-based approach of regional seismic damage evaluation and investigate the ANN performance when structural properties like the fundamental period T and ductility factor & mu; change. By utilizing the Single-Degree-of-Freedom (SDOF) structures, ANN seismic classifiers, whose inputs are multiple intensity measures (IMs) and outputs are damage states, are trained for a structure portfolio with T from 0.3 to 3 s and & mu; from 1.5 to 6. The importance ranking of the multiple input IMs for classification indicates that the most important IMs for the correct classification of damage states vary when the structural properties change. Acceleration-related IMs play the most important role for short-period structures (e.g., less than 0.5 s), velocity-related IMs are most important for intermediate structures (e.g., 0.5 to 2.0 s), and displacement-related IMs are most important for long-period structures (e.g., larger than 2.0 s). This importance variation of IMs validates the necessity and advantage of ANN seismic classifiers with multiple IMs as input for the regional seismic damage evaluation. Further comparison of two different damage indices shows that the ANN performance will not be compromised by changing the damage index. Overall, the classification accuracy higher than 92% on the structure portfolio shows that the ANN-based regional seismic damage evaluation could be a robust and accurate approach with some limitations to be addressed in future studies.

Automated summary

This study aims to develop an ANN-based approach for regional seismic damage evaluation and investigates the impact of changing structural properties on ANN performance. By training ANN seismic classifiers with multiple intensity measures (IMs) as inputs and damage states as outputs, the importance ranking of IMs for classification is found to vary with structural properties. The classification accuracy higher than 92% on a structure portfolio shows the robustness and accuracy of the ANN-based approach for regional seismic damage evaluation.