6533b820fe1ef96bd1279d21
RESEARCH PRODUCT
Constructing adaptive generalized polynomial chaos method to measure the uncertainty in continuous models: A computational approach
J. A. LiceaFrancisco-j. SantonjaJosé Vicente RomeroMaría Dolores RosellóJuan Carlos CortésRafael J. VillanuevaBenito M. Chen-charpentiersubject
Numerical AnalysisMathematical optimizationPolynomial chaosGeneral Computer ScienceDifferential equationApplied MathematicsComputingConstructiveMeasure (mathematics)Theoretical Computer ScienceCHAOS (operating system)Generalized polynomialRandom differential equationsModeling and SimulationConvergence (routing)Applied mathematicsProbability distributionMATEMATICA APLICADAAdaptive polynomial chaosMathematicsdescription
Due to errors in measurements and inherent variability in the quantities of interest, models based on random differential equations give more realistic results than their deterministic counterpart. The generalized polynomial chaos (gPC) is a powerful technique used to approximate the solution of these equations when the random inputs follow standard probability distributions. But in many cases these random inputs do not have a standard probability distribution. In this paper, we present a step-by-step constructive methodology to implement directly a useful version of adaptive gPC for arbitrary distributions, extending the applicability of the gPC. The paper mainly focuses on the computational aspects, on the implementation of the method and on the creation of a useful software tool. This tool allows the user to easily change the types of distributions and the order of the expansions, and to study their effects on the convergence and on the results. Several examples illustrating the usefulness of the method are included.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-03-01 |