Papers Published

  1. Attar, P.J. and Dowell, E.H., Stochastic analysis of a nonlinear aeroelastic model using the response surface method, J. Aircr. (USA), vol. 43 no. 4 (2006), pp. 1044 - 52 [1.17525] .
    (last updated on 2007/04/10)

    An efficient method is presented for quantifying the effect of parametric uncertainty on the response of a nonlinear aeroelastic system. The proposal stochastic model uses a response surface method to map the random input parameters of the system to the specified system output (in this instance root-mean square wing tip response). To handle the bifurcation in the response surface due to aeroelastic self-excited instability, the response surface model is fit using a two region regression. The results from this model are compared to those from a full Monte Carlo simulation for both a one-dimensional random input parameter model (thickness) and a two-dimensional random input parameter model (thickness and modulus of elasticity). The response surface method results compare favorably with the full model results while achieving a 2 to 3 order of magnitude gain in computational efficiency

    aerospace components;bifurcation;elastic moduli;elasticity;Monte Carlo methods;response surface methodology;