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Particle swarm optimization technique-based prediction of peak ground acceleration of Iraq’s tectonic regions

Mahir M. Hason, Ammar N. Hanoon, Ali A. Abdulhameed

2021Journal of King Saud University - Engineering Sciences19 citationsDOIOpen Access PDF

Abstract

Peak ground acceleration (PGA) is one of the critical factors that affect the determination of earthquake intensity. PGA is generally utilized to describe ground-motion in a particular zone, and is able to efficiently predict the parameters of site ground-motion for the design of engineering structures. Therefore, novel models are developed to forecast PGA in case of the Iraqi database, which utilizes the particle swarm optimization (PSO) approach. A data set of 187 historical ground-motion recordings in Iraq’s tectonic regions was used to build the explicit proposed models. The proposed PGA models relate to different seismic parameters, including magnitude of earthquake (Mw), average shear-wave velocity (VS30), focal depth (FD), and nearest epicenter distance (REPi) to a seismic station. The derived PGA models are remarkably simple and straightforward and can be used reliably for pre-design purposes. The proposed PGA models (i.e., models I and II) obtained via the explicit formula produced using the PSO method are highly correlated to the actual PGA records owing to low coefficients of variation (CoV) of approximately 2.12% and 2.06%, and mean values (i.e., close to 1.0) of approximately 1.005 and 1.004. Lastly, high-frequency low absolute relative error (ARE), which is below 5%, is recorded for the proposed models, thereby showing an acceptable error distribution.

Topics & Concepts

Particle swarm optimizationPeak ground accelerationAccelerationEpicenterGeodesySeismologyMagnitude (astronomy)TectonicsApproximation errorAlgorithmGeologyComputer scienceGround motionPhysicsClassical mechanicsAstronomySeismic Performance and AnalysisStructural Health Monitoring TechniquesSeismic Waves and Analysis