Advanced Methods for Seismic Performance Evaluation of Building Structures 

<br/><br/><br/>English[eng] 
<br/><br/><label>Subjects--Topical Terms: </label><br/>strength||yielding capping and ultimate deformation||RC column||cyclic test database||artificial neural network||bi-linear and tri-linear lumped plasticity model||columns||cyclic behavior||low height-to-depth ratio||modeling parameters||calibration||SPSW||axial compression ratio||hole size||thickness of stiffening plate||hole position||hysteretic performance||FEM (Finite Element Method)||DYNA6||soil-structure interaction||soil-pile dynamic stiffness||retrofitting||viscous dampers||optimum design||collapse-resistant capacity||economic benefit||sustainability||steel reinforced concrete||joint||post critical||moment-curvature||nonlinear||frame model||multi-story steel frames||self-centering bracing elements||buckling-restrained brace (BRB)||seismic analysis||earthquake/seismic forces||seismic damage||mold transformer||shaking table test||non-structural elements||dynamic characteristics||ground motion||earthquake||response history analysis||station||seismicity||machine learning||structural types||decision forest||self-training procedures||city-scale seismic damage simulation||numerical models||model parameter||analysis algorithm||seismic performance evaluation||seismic risk||seismic hazard||seismic force resisting system||energy dissipater||seismic design||nonlinear response