Recent Advances in the Design of Structures with Passive Energy Dissipation Systems
Recent Advances in the Design of Structures with Passive Energy Dissipation Systems
English[eng]
stay cable||vibration control||hybrid control||inertial mass damper||viscous damper||passive vibration control||inerter system||cable bracing||parametric study||optimal design||tuned mass damper||inerter||high-rise buildings||wind tunnel test||wind-induced response||structural control||synchronous multi-point pressure measurement||seismic protection||displacement-dependent damping||stochastic dynamic analysis||metal damper||performance parameter||cyclic loading test||hysteretic behavior||energy dissipation capability||multi-degree of freedom||graphical approach||suspension bridges||seismic test||pushover test||precast concrete structure||shake table||Base-Isolated Buildings||bearing displacement||STMD||MTMDs||d-MTMDs||incremental dynamic analysis||earthquake||energy dissipation||“double-step†characteristics||stiffness lifting||seismic performance||horizontal connection||prefabricated shear wall structural systems||high-tech factory||lead rubber bearing||moving crane||soil structure interaction||vibration||wind load||motion-based design||uncertainty conditions||constrained multi-objective optimization||reliability analysis||passive structural control||cable-stayed bridges||adjacent buildings||seismic pounding||energy-dissipation systems||distributed damping systems||optimal placement||multibuilding systems||hybrid genetic algorithm||parallel computing||pounding protection||seismic isolation||energy dissipation devices||negative stiffness device||damped structures
English[eng]
stay cable||vibration control||hybrid control||inertial mass damper||viscous damper||passive vibration control||inerter system||cable bracing||parametric study||optimal design||tuned mass damper||inerter||high-rise buildings||wind tunnel test||wind-induced response||structural control||synchronous multi-point pressure measurement||seismic protection||displacement-dependent damping||stochastic dynamic analysis||metal damper||performance parameter||cyclic loading test||hysteretic behavior||energy dissipation capability||multi-degree of freedom||graphical approach||suspension bridges||seismic test||pushover test||precast concrete structure||shake table||Base-Isolated Buildings||bearing displacement||STMD||MTMDs||d-MTMDs||incremental dynamic analysis||earthquake||energy dissipation||“double-step†characteristics||stiffness lifting||seismic performance||horizontal connection||prefabricated shear wall structural systems||high-tech factory||lead rubber bearing||moving crane||soil structure interaction||vibration||wind load||motion-based design||uncertainty conditions||constrained multi-objective optimization||reliability analysis||passive structural control||cable-stayed bridges||adjacent buildings||seismic pounding||energy-dissipation systems||distributed damping systems||optimal placement||multibuilding systems||hybrid genetic algorithm||parallel computing||pounding protection||seismic isolation||energy dissipation devices||negative stiffness device||damped structures