Interpolation and Extrapolation Optimal Designs 2 : Finite Dimensional General Models
Giorgio Celant; Michel Broniatowski
Wiley-ISTE
1
2018
en
9781119422365
This book considers various extensions of the topics treated in the first volume of this series, in relation to the class of models and the type of criterion for optimality. The regressors are supposed to belong to a generic finite dimensional Haar linear space, which substitutes for the classical polynomial case. The estimation pertains to a general linear form of the coefficients of the model, extending the interpolation and extrapolation framework; the errors in the model may be correlated, and the model may be heteroscedastic. Non-linear models, as well as multivariate ones, are briefly discussed.
The book focuses to a large extent on criteria for optimality, and an entire chapter presents algorithms leading to optimal designs in multivariate models. Elfving’s theory and the theorem of equivalence are presented extensively. The volume presents an account of the theory of the approximation of real valued functions, which makes it self-consistent.
The book focuses to a large extent on criteria for optimality, and an entire chapter presents algorithms leading to optimal designs in multivariate models. Elfving’s theory and the theorem of equivalence are presented extensively. The volume presents an account of the theory of the approximation of real valued functions, which makes it self-consistent.
1. Approximation of Continuous Functions in Normed Spaces.
2. Chebyshev Systems.
3. Uniform Approximations in a Normed Space.
4. Calculation of the Best Uniform Approximation in a Chebyshev System.
5. Optimal Extrapolation Design for the Chebyshev Regression.
6. Optimal Design for Linear Forms of the Parameters in a Chebyshev Regression.
7. Special Topics and Extensions.
8. Multivariate Models and Algorithms.
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