Optimal design of experiments

By:

Pukelsheim, Friedrich

Material type: Text

9780898716047
0898716047

Subject(s):

Experimental design

DDC classification:

519.5 PUK

Contents:

Experimental designs in linear models -- Optimal designs for scalar parameter systems -- Information matrices -- Loewner optimality -- Real optimality criteria -- Matrix means -- The general equivalence theorem -- Optimal moment matrices and optimal designs -- D-, A-, E-, T-optimality -- Admissibility of moment and information matrices -- Bayes designs and discrimination designs -- Efficient designs for finite sample sizes -- Invariant design problems -- Kiefer optimality -- Rotatibility and response surface designs.

Summary: Optimal Design of Experiments offers a rare blend of linear algebra, convex analysis, and statistics. The optimal design for statistical experiments is first formulated as a concave matrix optimization problem. Using tools from convex analysis, the problem is solved generally for a wide class of optimality criteria such as D-, A-, or E-optimality. The book then offers a complementary approach that calls for the study of the symmetry properties of the design problem, exploiting such notions as matrix majorization and the Kiefer matrix ordering. The results are illustrated with optimal designs for polynomial fit models, Bayes designs, balanced incomplete block designs, exchangeable designs on the cube, rotatable designs on the sphere, and many other examples.

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Holdings
Item type	Current library	Collection	Call number	Status	Date due	Barcode	Item holds
Lending Books	Main Library Stacks	Reference	519.5 PUK (Browse shelf(Opens below))	Available		012089
Reference Books	Main Library Reference	Reference	519.5 PUK (Browse shelf(Opens below))	Available		011284

Total holds: 0

Bibliography & Index

Experimental designs in linear models --
Optimal designs for scalar parameter systems --
Information matrices --
Loewner optimality --
Real optimality criteria --
Matrix means --
The general equivalence theorem --
Optimal moment matrices and optimal designs --
D-, A-, E-, T-optimality --
Admissibility of moment and information matrices --
Bayes designs and discrimination designs --
Efficient designs for finite sample sizes --
Invariant design problems --
Kiefer optimality --
Rotatibility and response surface designs.

Optimal Design of Experiments offers a rare blend of linear algebra, convex analysis, and statistics. The optimal design for statistical experiments is first formulated as a concave matrix optimization problem. Using tools from convex analysis, the problem is solved generally for a wide class of optimality criteria such as D-, A-, or E-optimality. The book then offers a complementary approach that calls for the study of the symmetry properties of the design problem, exploiting such notions as matrix majorization and the Kiefer matrix ordering. The results are illustrated with optimal designs for polynomial fit models, Bayes designs, balanced incomplete block designs, exchangeable designs on the cube, rotatable designs on the sphere, and many other examples.

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