Adaptive sequential design for regression on multi-resolution bases

Serge Cohen; Sébastien Déjean; Sébastien Gadat

doi:10.1007/s11222-011-9267-7

Adaptive sequential design for regression on multi-resolution bases

Serge Cohen
, Sébastien Déjean
, Sébastien Gadat

Université de Toulouse

Research output: Contribution to journal › Article › peer-review

Abstract

This work investigates the problem of construction of designs for estimation and discrimination between competing linear models. In our framework, the unknown signal is observed with the addition of a noise and only a few evaluations of the noisy signal are available. The model selection is performed in a multi-resolution setting. In this setting, the locations of discrete sequential D and A designs are precisely constraint in a small number of explicit points. Hence, an efficient stochastic algorithm can be constructed that alternately improves the design and the model. Several numerical experiments illustrate the efficiency of our method for regression. One can also use this algorithm as a preliminary step to build response surfaces for sensitivity analysis.

Original language	English
Pages (from-to)	753-772
Number of pages	20
Journal	Statistics and Computing
Volume	22
Issue number	3
DOIs	https://doi.org/10.1007/s11222-011-9267-7
Publication status	Published - 1 May 2012
Externally published	Yes

Keywords

Active learning
Model selection
Optimal designs
Stochastic algorithms
Wavelets

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10.1007/s11222-011-9267-7

Cite this

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N2 - This work investigates the problem of construction of designs for estimation and discrimination between competing linear models. In our framework, the unknown signal is observed with the addition of a noise and only a few evaluations of the noisy signal are available. The model selection is performed in a multi-resolution setting. In this setting, the locations of discrete sequential D and A designs are precisely constraint in a small number of explicit points. Hence, an efficient stochastic algorithm can be constructed that alternately improves the design and the model. Several numerical experiments illustrate the efficiency of our method for regression. One can also use this algorithm as a preliminary step to build response surfaces for sensitivity analysis.

AB - This work investigates the problem of construction of designs for estimation and discrimination between competing linear models. In our framework, the unknown signal is observed with the addition of a noise and only a few evaluations of the noisy signal are available. The model selection is performed in a multi-resolution setting. In this setting, the locations of discrete sequential D and A designs are precisely constraint in a small number of explicit points. Hence, an efficient stochastic algorithm can be constructed that alternately improves the design and the model. Several numerical experiments illustrate the efficiency of our method for regression. One can also use this algorithm as a preliminary step to build response surfaces for sensitivity analysis.

KW - Active learning

KW - Model selection

KW - Optimal designs

KW - Stochastic algorithms

KW - Wavelets

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JO - Statistics and Computing

JF - Statistics and Computing

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ER -

Adaptive sequential design for regression on multi-resolution bases

Abstract

Keywords

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