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Computing exact D-optimal designs by mixed integer second order cone programming (2013)

Sagnol, Guillaume ; Harman, Radoslav

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Publikationsdatum: 2020-08-05

Beschreibung: Let the design of an experiment be represented by an $s$-dimensional vector $\vec{w}$ of weights with non-negative components. Let the quality of $\vec{w}$ for the estimation of the parameters of the statistical model be measured by the criterion of $D$-optimality defined as the $m$-th root of the determinant of the information matrix $M(\vec{w})=\sum_{i=1}^s w_iA_iA_i^T$, where $A_i$, $i=1,...,s$, are known matrices with $m$ rows. In the paper, we show that the criterion of $D$-optimality is second-order cone representable. As a result, the method of second order cone programming can be used to compute an approximate $D$-optimal design with any system of linear constraints on the vector of weights. More importantly, the proposed characterization allows us to compute an \emph{exact} $D$-optimal design, which is possible thanks to high-quality branch-and-cut solvers specialized to solve mixed integer second order cone problems. We prove that some other widely used criteria are also second order cone representable, for instance the criteria of $A$-, and $G$-optimality, as well as the criteria of $D_K$- and $A_K$-optimality, which are extensions of $D$-, and $A$-optimality used in the case when only a specific system of linear combinations of parameters is of interest. We present several numerical examples demonstrating the efficiency and universality of the proposed method. We show that in many cases the mixed integer second order cone programming approach allows us to find a provably optimal exact design, while the standard heuristics systematically miss the optimum.

Sprache: Englisch

Materialart: reportzib , doc-type:preprint

Format: application/pdf

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Optimal Designs for Steady-state Kalman filters (2015)

Sagnol, Guillaume ; Harman, Radoslav

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Publikationsdatum: 2020-08-05

Beschreibung: We consider a stationary discrete-time linear process that can be observed by a finite number of sensors. The experimental design for the observations consists of an allocation of available resources to these sensors. We formalize the problem of selecting a design that maximizes the information matrix of the steady-state of the Kalman filter, with respect to a standard optimality criterion, such as $D-$ or $A-$optimality. This problem generalizes the optimal experimental design problem for a linear regression model with a finite design space and uncorrelated errors. Finally, we show that under natural assumptions, a steady-state optimal design can be computed by semidefinite programming.

Sprache: Englisch

Materialart: conferenceobject , doc-type:conferenceObject

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Computing D-optimal experimental designs for estimating treatment contrasts under the presence of a nuisance time trend (2015)

Harman, Radoslav ; Sagnol, Guillaume

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Publikationsdatum: 2020-08-05

Beschreibung: We prove a mathematical programming characterisation of approximate partial D-optimality under general linear constraints. We use this characterisation with a branch-and-bound method to compute a list of all exact D-optimal designs for estimating a pair of treatment contrasts in the presence of a nuisance time trend up to the size of 24 consecutive trials.

Sprache: Englisch

Materialart: conferenceobject , doc-type:conferenceObject

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Computing exact D-optimal designs by mixed integer second-order cone programming (2015)

Sagnol, Guillaume ; Harman, Radoslav

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Details

Publikationsdatum: 2020-08-05

Beschreibung: Let the design of an experiment be represented by an $s-$dimensional vector $w$ of weights with nonnegative components. Let the quality of $w$ for the estimation of the parameters of the statistical model be measured by the criterion of $D-$optimality, defined as the $m$th root of the determinant of the information matrix $M(w)=\sum_{i=1}^s w_i A_i A_i^T$, where $A_i$,$i=1,\ldots,s$ are known matrices with $m$ rows. In this paper, we show that the criterion of $D-$optimality is second-order cone representable. As a result, the method of second-order cone programming can be used to compute an approximate $D-$optimal design with any system of linear constraints on the vector of weights. More importantly, the proposed characterization allows us to compute an exact $D-$optimal design, which is possible thanks to high-quality branch-and-cut solvers specialized to solve mixed integer second-order cone programming problems. Our results extend to the case of the criterion of $D_K-$optimality, which measures the quality of $w$ for the estimation of a linear parameter subsystem defined by a full-rank coefficient matrix $K$. We prove that some other widely used criteria are also second-order cone representable, for instance, the criteria of $A-$, $A_K$-, $G-$ and $I-$optimality. We present several numerical examples demonstrating the efficiency and general applicability of the proposed method. We show that in many cases the mixed integer second-order cone programming approach allows us to find a provably optimal exact design, while the standard heuristics systematically miss the optimum.

Sprache: Englisch

Materialart: article , doc-type:article

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Optimal Designs for Steady-state Kalman filters (2014)

Sagnol, Guillaume ; Harman, Radoslav

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Details

Publikationsdatum: 2020-08-05

Beschreibung: We consider a stationary discrete-time linear process that can be observed by a finite number of sensors. The experimental design for the observations consists of an allocation of available resources to these sensors. We formalize the problem of selecting a design that maximizes the information matrix of the steady-state of the Kalman filter, with respect to a standard optimality criterion, such as $D-$ or $A-$optimality. This problem generalizes the optimal experimental design problem for a linear regression model with a finite design space and uncorrelated errors. Finally, we show that under natural assumptions, a steady-state optimal design can be computed by semidefinite programming.

Sprache: Englisch

Materialart: reportzib , doc-type:preprint

Format: application/pdf

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Bibliothek	Standort	Signatur	Band/Heft/Jahr	Verfügbarkeit

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6

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Computing D-optimal experimental designs for estimating treatment contrasts under the presence of a nuisance time trend (2015)

Harman, Radoslav ; Sagnol, Guillaume

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Details

Publikationsdatum: 2020-08-05

Beschreibung: We prove a mathematical programming characterisation of approximate partial D-optimality under general linear constraints. We use this characterisation with a branch-and-bound method to compute a list of all exact D-optimal designs for estimating a pair of treatment contrasts in the presence of a nuisance time trend up to the size of 24 consecutive trials.

Sprache: Englisch

Materialart: reportzib , doc-type:preprint

Format: application/pdf

Permalink

Bibliothek	Standort	Signatur	Band/Heft/Jahr	Verfügbarkeit

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OPUS

PDF

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