Andere Kunden interessierten sich auch für
![Strong Motion Instrumentation for Civil Engineering Structures]( "Strong Motion Instrumentation for Civil Engineering Structures")
Strong Motion Instrumentation for Civil Engineering Structures159,99 €![Interpretation of Ground Penetrating Radar Data for Utilities]( "Interpretation of Ground Penetrating Radar Data for Utilities")
Interpretation of Ground Penetrating Radar Data for Utilities51,99 €![Welding Simulations for Pipe Flange Joints]( "Welding Simulations for Pipe Flange Joints")
Welding Simulations for Pipe Flange Joints44,99 €![Ultra-low-Cycle Fatigue Failure of Metal Structures under Strong Earthquakes]( "Ultra-low-Cycle Fatigue Failure of Metal Structures under Strong Earthquakes")
Ultra-low-Cycle Fatigue Failure of Metal Structures under Strong Earthquakes103,99 €![Design considerations for ground-clearance and wheel-base for navigating non-standard speed-bumps]( "Design considerations for ground-clearance and wheel-base for navigating non-standard speed-bumps")
Design considerations for ground-clearance and wheel-base for navigating non-standard speed-bumps15,95 €![Welding Simulations Using ABAQUS]( "Welding Simulations Using ABAQUS")
Welding Simulations Using ABAQUS66,99 €![Recent Advances in Modelling and Simulations - 2021 Abstract Book]( "Recent Advances in Modelling and Simulations - 2021 Abstract Book")
Recent Advances in Modelling and Simulations - 2021 Abstract Book29,99 €
Assessment of potential ground motions in seismically active regions is essential for purposes of seismic design and analysis. In regions of sparse or no strong ground motion records, ground motion simulations provide physics-based synthetic records. These simulations provide not only the earthquake engineering parameters but also give insight into the mechanisms of the earthquakes. This book presents strong ground motion simulations in three regions of intense seismic activity, namely Düzce, L'Aquila and Erzincan. In this study, stochastic finite-fault simulation methodology is utilized to determine regional seismic source, propagation and site parameters through validation of the simulations against the records. The limitations of the method are also investigated. Furthermore, a parametric sensitivity study is performed to observe the variations in results to small perturbations in input parameters. Results of this study confirm that stochastic finite-fault simulation method isan effective technique for generating realistic synthetic records of large earthquakes in near field regions. It is possible to use the results in seismic response analyses of engineering structures.