Proceedings of the third international conference on Genetic algorithms
Adaptation in natural and artificial systems
Adaptation in natural and artificial systems
A parallel genetic algorithm for the set partitioning problem
A parallel genetic algorithm for the set partitioning problem
Quality local refinement of tetrahedral meshes based on 8-subtetrahedron subdivision
Mathematics of Computation
Several aspects of three-dimensional Delaunay triangulation
Advances in Engineering Software
An improved derefinement algorithm of nested meshes
Advances in Engineering Software
Locally Adapted Tetrahedral Meshes Using Bisection
SIAM Journal on Scientific Computing
Tetrahedral Mesh Generation for Environmental Problems over Complex Terrains
ICCS '02 Proceedings of the International Conference on Computational Science-Part I
Parameter Estimation in a Three-Dimensional Wind Field Model Using Genetic Algorithms
ICCS '02 Proceedings of the International Conference on Computational Science-Part I
Uniform Crossover in Genetic Algorithms
Proceedings of the 3rd International Conference on Genetic Algorithms
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The efficiency of a mass consistent model for wind field adjustment depends on several parameters that arise in various stages of the process. On one hand, those involved in the construction of the initial wind field using horizontal interpolation and vertical extrapolation of the wind measures registered at meteorological stations. On the other hand, the stability parameter which allow from a strictly horizontal wind adjustment to a pure vertical one. In general, the values of all of these parameters are based on empirical laws. The main goal of this work is the estimation of these parameters using genetic algorithms, such that some of the wind velocities observed at the measurement station are regenerated as accurately as possible by the model. In addition, we study the effect of the mesh refinement on the parameter estimation in several numerical experiments.