Difference between revisions of "Virtual Shaker"

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(Created page with 'The response of a building subjected to ground acceleration depends on the magnitude of acceleration and frequency components. The largest, full dynamic earthquake simulation of …')
 
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The response of a building subjected to ground acceleration depends on the magnitude of acceleration and frequency components. The largest, full dynamic earthquake simulation of magnitude 8 on southern San Andreas was led by SCEC last year. The simulation included frequency components up to 2 Hz. This study was conducted to evaluate the response of two types of steel buildings with fundamental periods of 0.63 and 4.54 seconds subjected to acceleration records from SCEC M8 Simulation.
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CME team at SCEC can produce forward wave propagation data – ground motion time-histories (seismograms) for simulated earthquakes of various magnitudes. The largest, full dynamic earthquake simulation of magnitude 8 on southern San Andreas fault was led by SCEC last year. The seismograms produced by this simulation included frequency components up to 2 Hz. These seismograms can be applied to steel buildings models in virtual environment with Frame3D software, a building analysis program developed by Swaminathan Krishnan at California Institute of Technology. Frame3D allows us to perform efficient three-dimensional nonlinear analysis of steel buildings subject to ground acceleration records.
  
The buildings were simulated with Frame3D software, a building analysis program developed by Swami Krishnan at California Institute of Technology. Frame3D allows us to perform efficient three-dimensional nonlinear analysis of steel buildings subject to ground acceleration records. The building analysis results from Frame3D are processed using vShaker program developed at SCEC to produce structural animations. vShaker program combines structural response data from Frame3D and ground motion data to build three-dimensional geometric representation of the structure at specified time intervals. vShaker can then combine these snapshots to produce animations of structural motion with various viewpoints.
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We needed a package to interface ground motion data with structural analysis software to visualize building response to ground motion time-histories. VShaker is set of tools developed at SCEC to provide this interface. It provides formatted ground motion time-history input to Frame3D software, process and visualizes its output data. The building analysis results from Frame3D are processed by VShaker program in two steps. The program first combines structural model, response data from Frame3D and ground motion data to build three-dimensional geometric representations of the structure at specified time intervals. These geometric representations are output as Wavefront OBJ files - a universal file format supported by major 3D rendering programs. In the next step VShaker can combine these snapshots to produce simple animations of structural motion with various viewpoints.
  
The two types of buildings were simulated at eight locations spread out across Southern California. The locations were chosen based on a previous study conducted by Krishnan et al., on response of tall steel building for magnitude 7.9 1857 southern San Andreas Earthquake.  The choice of building locations allowed us to compare the results of building response from our study to those reported in the earlier study. The tall steel building with fundamental period of 4.54 seconds had comparable responses to those reported in Mw 7.9 earthquake study.   
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We are currently conducting a study to evaluate the response of two types of steel buildings with fundamental periods of 0.63 and 4.54 seconds subjected to acceleration records from SCEC M8 Simulation. These buildings are being simulated at eight locations spread out across Southern California. The locations were chosen based on a previous study conducted by Krishnan et al., on response of tall steel buildings for magnitude 7.9 1857 southern San Andreas Earthquake.  The choice of building locations will allow us to compare the results of building response from our study to those reported in the earlier study. The tall steel building with fundamental period of 4.54 seconds had comparable responses to those reported in Mw 7.9 earthquake study.   
Frame3D system is capable of dynamically evaluating the performance levels of the structural elements against know standards like FEMA-356.  We plan to include capability in vShaker program to highlight structural damage in visualizations of building responses produced for significant earthquakes.
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VShaker has the potential to produce animations of structural motion after significant earthquake to aid in identification of damage to structural elements. It can also be used to effectively visualize performance of proposed building models to simulated earthquakes.

Revision as of 22:29, 23 August 2010

CME team at SCEC can produce forward wave propagation data – ground motion time-histories (seismograms) for simulated earthquakes of various magnitudes. The largest, full dynamic earthquake simulation of magnitude 8 on southern San Andreas fault was led by SCEC last year. The seismograms produced by this simulation included frequency components up to 2 Hz. These seismograms can be applied to steel buildings models in virtual environment with Frame3D software, a building analysis program developed by Swaminathan Krishnan at California Institute of Technology. Frame3D allows us to perform efficient three-dimensional nonlinear analysis of steel buildings subject to ground acceleration records.

We needed a package to interface ground motion data with structural analysis software to visualize building response to ground motion time-histories. VShaker is set of tools developed at SCEC to provide this interface. It provides formatted ground motion time-history input to Frame3D software, process and visualizes its output data. The building analysis results from Frame3D are processed by VShaker program in two steps. The program first combines structural model, response data from Frame3D and ground motion data to build three-dimensional geometric representations of the structure at specified time intervals. These geometric representations are output as Wavefront OBJ files - a universal file format supported by major 3D rendering programs. In the next step VShaker can combine these snapshots to produce simple animations of structural motion with various viewpoints.

We are currently conducting a study to evaluate the response of two types of steel buildings with fundamental periods of 0.63 and 4.54 seconds subjected to acceleration records from SCEC M8 Simulation. These buildings are being simulated at eight locations spread out across Southern California. The locations were chosen based on a previous study conducted by Krishnan et al., on response of tall steel buildings for magnitude 7.9 1857 southern San Andreas Earthquake. The choice of building locations will allow us to compare the results of building response from our study to those reported in the earlier study. The tall steel building with fundamental period of 4.54 seconds had comparable responses to those reported in Mw 7.9 earthquake study. VShaker has the potential to produce animations of structural motion after significant earthquake to aid in identification of damage to structural elements. It can also be used to effectively visualize performance of proposed building models to simulated earthquakes.