Worcester Polytechnic Institute Electronic Theses and Dissertations Collection

Title page for ETD etd-121905-163738


Document Typedissertation
Author NameHera, Adriana
Email Address ahera at wpi.edu
URNetd-121905-163738
TitleInstantaneous Modal Parameters and Their Applications to Structural Health Monitoring
DegreePhD
DepartmentMechanical Engineering
Advisors
  • Zhikun Hou, Advisor
  • Michael A. Demetriou, Committee Member
  • Mark W. Richman, Committee Member
  • Herman Servatius, Committee Member
  • Grétar Tryggvason, Committee Chair
  • Keywords
  • structural health monitoring
  • wavelet transform
  • time varying vibration modes
  • linear time varying system
  • instantaneous modal parameters
  • Date of Presentation/Defense2005-12-01
    Availability unrestricted

    Abstract

    This dissertation proposes a vibration-based approach to detect and monitor structural damage by tracking the instantaneous modal parameters. A change in the instantaneous modal parameters indicates change in the structural health condition. In contrast to many existing structural health monitoring schemes, the proposed approach is less model dependent and works well for both sudden and evolving damage, general loading conditions and complex structures.

    The instantaneous modal parameters, including modal frequency, mode shape vector and modal damping ratio, are introduced as a bridge between the system properties and time varying vibration modes. The theoretical background of the time-varying vibration modes is developed. It has been shown that for slowly time-varying systems such modes exist and the instantaneous modal parameters have a clear physical interpretation and can be identified from free and forced vibration responses.

    A set of known techniques are used in an innovative way to identify the instantaneous modal parameters. Applicability of the identification techniques depends on the nature and availability of measurement data. Wavelet ridge method is used to identify the instantaneous modal frequencies and normalized instantaneous mode shape vectors from free vibration data. Wavelet packet sifting technique in conjunction with Hilbert transform and confidence index is proposed to identify the normalized instantaneous mode shape vector from both free and forced vibration data. Time-varying Kalman filter is integrated with the wavelet packet sifting technique to identify the instantaneous modal frequencies and the instantaneous modal damping ratios from free and forced vibration data.

    The proposed approach has been validated using both simulation and experimental data. The simulation data is obtained from a multi-degree-of-freedom system with time varying stiffness under different loading conditions. Experimental data include both impact testing data from the ASCE benchmark study and shaking-table test data of a full-size two-story wooden building structure, conducted at DPRI, Kyoto University, Japan. It has been shown that the proposed approach can successfully detect and monitor damage and, therefore, has great potential for real applications.

    Files
  • AdrianaHeraDissertation.pdf

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