Structural Parameter Identification Based on Dynamic Response Sensitivity with Non-Zero Initial Conditions

Kun Zhang

doi:10.4028/www.scientific.net/AMM.488-489.403

Paper Titles

The Analysis of Evolution of Spatial Form of Jilin City
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Design of Structure and its Enclosure for Subaqueous Tunnel to Cross River in Urban Highway Line
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Critical Seismic Response Analysis of Skew Bridges
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Seismic Damage Analysis on the Continuous Girder Bridge of Urban Rail Transit Line
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Structural Parameter Identification Based on Dynamic Response Sensitivity with Non-Zero Initial Conditions
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A Study on Carbonization Performance of Concrete by Freeze-Thaw Action in Ningxia
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Study on Prediction Model of Dynamic Resilient Modulus of Cohesive Subgrade Soils Considering Moisture Variation
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Numerical Simulation on Propagation Mechanism of Hydraulic Fracture in Fractured Rockmass
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Research on the Design for Bridge Channel Buoy
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 488-489Structural Parameter Identification Based on...

Structural Parameter Identification Based on Dynamic Response Sensitivity with Non-Zero Initial Conditions

Abstract:

The effect of non-zero initial conditions of measured structural responses on the structural parameter identification methods based on dynamic response sensitivity is investigated and an effective method is proposed to eliminate the negative effect. A twelve-story shear building structure is studied for validating the proposed method. Numerical simulation results show that the non-zero initial conditions of measured data bring larger identified errors in the dynamic response sensitivity methods. To overleap some measured data points in the initial period of the time interval is an effective method for eliminating the identified errors caused by non-zero initial conditions. The optimal number of overleaped data can be determined from the attenuation trend of the 1st-order free modal vibration of the structure.