Machine learning models for predicting maximum displacement of triple pendulum isolation systems

Implementing ensemble learning methods to predict the shear strength of RC deep beams with/without web reinforcements

(2021) De-Cheng Feng et al.   ENGINEERING STRUCTURES

Development of extreme gradient boosting model for prediction of punching shear resistance of r/c interior slabs

(2021) Hoang D. Nguyen et al.   ENGINEERING STRUCTURES

Prediction of seismic drift responses of planar steel moment frames using artificial neural network and extreme gradient boosting

(2021) Hoang D. Nguyen et al.   ENGINEERING STRUCTURES

A new statistical equation for predicting nonlinear time history displacement of seismic isolation systems

(2020) Nhan D. Dao et al.   Structures

The promise of implementing machine learning in earthquake engineering: A state-of-the-art review

(2020) Yazhou Xie et al.   EARTHQUAKE SPECTRA

Evaluating simplified models in predicting global seismic responses of a shake table-test building isolated by triple friction pendulum bearings

(2019) Nhan D. Dao et al.   EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS

Nonlinear dynamic response of a tall building to near-fault pulse-like ground motions

(2019) Necmettin Güneş et al.   Bulletin of Earthquake Engineering

On the application of machine learning techniques to derive seismic fragility curves

(2019) Jalal Kiani et al.   COMPUTERS & STRUCTURES

Stripe‐based fragility analysis of multispan concrete bridge classes using machine learning techniques

(2019) Sujith Mangalathu et al.   EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS

Classification of failure mode and prediction of shear strength for reinforced concrete beam-column joints using machine learning techniques

(2018) Sujith Mangalathu et al.   ENGINEERING STRUCTURES

A machine learning framework for assessing post-earthquake structural safety

(2018) Yu Zhang et al.   STRUCTURAL SAFETY

Applicability of equivalent linearization methods to irregular isolated bridges

(2017) J.M. Jara et al.   ENGINEERING STRUCTURES

A model of triple friction pendulum bearing for general geometric and frictional parameters

(2016) Apostolos A. Sarlis et al.   EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS

Seismic Response of Triple Friction Pendulum Bearing under Near-Fault Ground Motions

(2016) Gholamreza Ghodrati Amiri et al.   International Journal of Structural Stability and Dynamics

Influence of Vertical Ground Shaking on Horizontal Response of Seismically Isolated Buildings with Friction Bearings

(2016) Keri L. Ryan et al.   JOURNAL OF STRUCTURAL ENGINEERING

Influence of Vertical Ground Shaking on Horizontal Response of Seismically Isolated Buildings with Friction Bearings

(2016) Keri L. Ryan et al.   JOURNAL OF STRUCTURAL ENGINEERING

Evaluation of Assumptions Used in Engineering Practice to Model Buildings Isolated with Triple Pendulum Isolators in SAP2000

(2015) Anthony P. Giammona et al.   EARTHQUAKE SPECTRA

Forward directivity near-fault and far-fault ground motion effects on the behavior of reinforced concrete wall tall buildings with one and more plastic hinges

(2015) Hamid Beiraghi et al.   STRUCTURAL DESIGN OF TALL AND SPECIAL BUILDINGS

Appropriate viscous damping for nonlinear time-history analysis of base-isolated reinforced concrete buildings

(2013) Deepak R. Pant et al.   EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS

Predicting the displacement of triple pendulum™ bearings in a full-scale shaking experiment using a three-dimensional element

(2013) Nhan D. Dao et al.   EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS

Assessing the suitability of equivalent linear elastic analysis of seismically isolated multi-storey buildings

(2011) E. Mavronicola et al.   COMPUTERS & STRUCTURES

Experimental and analytical study of the bi-directional behavior of the triple friction pendulum isolator

(2011) Tracy C. Becker et al.   EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS