A methodology for time-dependent reliability-based design optimization of vibratory systems with random parameters under stationary excitation is presented. The time-dependent probability of failure is computed using an integral equation which involves up-crossing and joint up-crossing rates. The total probability theorem addresses the presence of the system random parameters and a sparse grid quadrature method calculates the integral of the total probability theorem efficiently. The sensitivity derivatives of the time-dependent probability of failure with respect to the design variables are computed using finite differences. The Modified Combined Approximations (MCA) reanalysis method is used to reduce the overall computational cost from repeated evaluations of the system frequency response or equivalently impulse response function. The method is applied to the shape optimization of a vehicle frame under stochastic loading. The novelty of the proposed work lies in the integration of the joint up-crossing rate method for time-dependent reliability of vibratory systems, sparse grid approach for efficient evaluation of multi-dimensional integrals, reanalysis methodology for efficient vibratory analysis, and optimization tools for time-dependent Reliability-based Design Optimization (RBDO).


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    Title :

    Time-Dependent Reliability-Based Design Optimization of Vibratory Systems


    Additional title:

    Sae Int. J. Commer. Veh


    Contributors:

    Conference:

    WCX™ 17: SAE World Congress Experience ; 2017



    Publication date :

    2017-03-28


    Size :

    10 pages




    Type of media :

    Conference paper


    Type of material :

    Print


    Language :

    English






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