Identification of response surface models using genetic programming

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@Article{Lew:2006:MSSP,

• author = "T. L. Lew and A. B. Spencer and F. Scarpa and K. Worden and A. Rutherford and F. Hemez",
• title = "Identification of response surface models using genetic programming",
• journal = "Mechanical Systems and Signal Processing",
• year = "2006",
• volume = "20",
• number = "8",
• pages = "1819--1831",
• month = nov,
• keywords = "genetic algorithms, genetic programming, Surrogate/replacement model, Response surface models, Symbolic regression",
• DOI = "doi:10.1016/j.ymssp.2005.12.003",
• abstract = "There is a move in modern research in Structural Dynamics towards analysing the inherent uncertainty in a given problem. This may be quantifying or fusing uncertainty models, or can be propagation of uncertainty through a system or calculation. If the system of interest is represented by, e.g. a large Finite Element (FE) model the large number of computations involved can rule out many approaches due to the expense of carrying out many runs. One way of circumnavigating this problem is to replace the true system by an approximate surrogate/replacement model, which is fast-running compared to the original. In traditional approaches using response surfaces a simple least-squares multinomial model is often adopted. The objective of this paper is to extend the class of possible models considerably by carrying out a general symbolic regression using a Genetic Programming approach. The approach is demonstrated on both univariate and multivariate problems with both computational and experimental data.",

}

Genetic Programming entries for T L Lew Andrew Spencer Fabrizio Scarpa Keith Worden A Rutherford Francois M Hemez

Citations