Lattice-based D-optimum design for Fourier regression

Eva Riccomagno; Rainer Schwabe; Henry P. Wynn

doi:10.1214/aos/1030741074

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Home > Journals > Ann. Statist. > Volume 25 > Issue 6 > Article

December 1997 Lattice-based D-optimum design for Fourier regression

Eva Riccomagno, Rainer Schwabe, Henry P. Wynn

Ann. Statist. 25(6): 2313-2327 (December 1997). DOI: 10.1214/aos/1030741074

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Abstract

A theory of optimum orthogonal fractions is developed for Fourier regression models using integer lattice designs. These provide alternatives to simple grids (product designs) in the case when specified main effects and interaction terms are required to be analyzed. The challenge is to obtain sample sizes which are polynomial in the dimension rather than exponential. This is achieved for certain models with special algorithms based on both algebraic generation and more direct sequential search.

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Eva Riccomagno. Rainer Schwabe. Henry P. Wynn. "Lattice-based D-optimum design for Fourier regression." Ann. Statist. 25 (6) 2313 - 2327, December 1997. https://doi.org/10.1214/aos/1030741074

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Published: December 1997

First available in Project Euclid: 30 August 2002

zbMATH: 0895.62081

MathSciNet: MR1604453

Digital Object Identifier: 10.1214/aos/1030741074

Subjects:

Primary: 62J99 , 62K05

Keywords: Fourier models , lattices , orthogonal fractions complexity

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Ann. Statist.

Vol.25 • No. 6 • December 1997

Institute of Mathematical Statistics

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Eva Riccomagno, Rainer Schwabe, Henry P. Wynn "Lattice-based D-optimum design for Fourier regression," The Annals of Statistics, Ann. Statist. 25(6), 2313-2327, (December 1997)

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