原文传递
Real-Time Hybrid Simulation with Polynomial Chaos NARX Modeling for Seismic Response Evaluation of Structures Subjected to Stochastic Ground Motions
| 题名: | Real-Time Hybrid Simulation with Polynomial Chaos NARX Modeling for Seismic Response Evaluation of Structures Subjected to Stochastic Ground Motions |
| 正文语种: | eng |
| 作者: | Xiaoshu Gao;Menghui Chen;Cheng Chen;Tong Guo;Weijie Xu;Karlel Cornejo |
| 作者单位: | Shandong Univ.;Ministry of Education Southeast Univ.;San Francisco State Univ.;Ministry of Education Southeast Univ.;Ministry of Education Southeast Univ.;San Francisco State Univ. |
| 关键词: | Real-time hybrid simulation (RTHS);Uncertainty;Nonlinear autoregressive with exogenous input (NARX) model;Polynomial chaos expansion (PCE);Surrogate model;Stochastic ground motion |
| 摘要: | Abstract Real-time hybrid simulation (RTHS) provides an efficient and effective experimental technique for rate-dependent energy-dissipation devices in seismic hazard mitigation. The structure under investigation is generally divided into analytical and physical substructures to enable large-scale experiments for system behavior. Accurate modeling of analytical substructures is critical for truthful structural response replication through RTHS. This presents challenges to laboratory practice of RHTS such as capability of specialized finite-element software to replicate complex nonlinear behavior, and the equipment capacity to accommodate large-scale finite-element modeling to be executed in a real-time manner. This study explores the use of a polynomial chaos nonlinear autoregressive with exogenous input (PC-NARX) model to conduct RTHS in laboratories using existing equipment and general-purpose finite-element analysis (FEA) software readily available in earthquake engineering research. The NARX model can be trained using any existing FEA software for a good representation of structural dynamics. Polynomial chaos expansion (PCE) is then introduced to surrogate NARX model coefficients to account for ground motion uncertainties. Laboratory tests of a self-centering viscous damper were conducted as proof of concept to experimentally demonstrate the effectiveness of RTHS with PC-NARX metamodeling approach. The results were further compared with the kriging surrogate technique for NARX model coefficients to explore a better technique to account for uncertainties in RTHS. |
| 出版年: | 2022 |
| 期刊名称: | Journal of structural engineering |
| 卷: | 148 |
| 期: | 9 |
| 页码: | 1-15 |
相关文献
- Hydrodynamic Real-Time Hybrid Simulation Demonstrated for Cascading Seismic and Tsunami Events
- Adaptive Experimental Design of Real-Time Hybrid Simulation for Parameter Calibration of Rate-Dependent Devices toward Optimal Response Prediction
- Seismic Response and Damage of Reduced-Strength Steel MRF Structures with Nonlinear Viscous Dampers
- Effects of High-Frequency Ground-Motion Spectra in the Seismic Response of Squat RC Walls
- Behavior of Steel Plate Shear Walls Subjected to Repeated Synthetic Ground Motions
- Revised Seismic Intensity Parameters for Middle-Field Horizontal and Rocking Strong Ground Motions
检索历史
应用推荐
