Database enrichment for multi objective optimization

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9 pages

English

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Database enrichment for multi-objective optimization Patricia Klotz a,?, Nathalie Bartoli a, Laurence Cornez a, Renaud Lecourt a and Nicolas Savary b aONERA, 2,avenue Edouard Belin, 31055 Toulouse, France bTURBOMECA, 64511 Bordes, France Abstract The problem of optimization of complex phenomena is studied by using response surface approximation. Design of experiments is elaborated for database genera- tion of samples, but it can be improved to obtain more adapted response surfaces through a sequential enrichment based on bootstrap techniques. A multi-objective optimization is performed on a two phase flow configuration for the optimization of injection parameters in a Low Premixed Prevaporized (LPP) injection system for a combustor chamber. Key words: multi-objective optimization, response surface, neural network, design of experiments, bootstrap 1 Introduction This paper outlines some optimiza- tion research done at ONERA within the context of an ONERA Internal project (PRF DOOM) and a Euro- pean project (INTELLECT D.M.). Because optimization requires a lot of computations, the use of response surface model (RSM) is a good so- lution to decrease CPU time. The set of points for fitting RSM to each objective function is provided by a ? Corresponding author Email address: (Patricia Klotz). design of experiments. We use here Latin Hypercube Sampling (LHS) which combines deterministic and random sampling in order to reduce the variance of the RSM.

into account

using response

multi-objective optimization

ac- count multi-objective

phase flow

Sujets

Bartoli

Lecourt

Cornez

Savary

Multi-objective optimization

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Publié par	pefav
Nombre de lectures	15
Langue	English

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Database enrichment for multi-objective optimization

a,a a Patricia Klotz , Nathalie Bartoli , Laurence Cornez , a b Renaud Lecourt and Nicolas Savary a ONERA, 2,avenue Edouard Belin, 31055 Toulouse, France b TURBOMECA, 64511 Bordes, France

Abstract

The problem of optimization of complex phenomena is studied by using response surface approximation. Design of experiments is elaborated for database genera-tion of samples, but it can be improved to obtain more adapted response surfaces through a sequential enrichment based on bootstrap techniques. A multi-objective optimizationisperformedonatwophaseowcongurationfortheoptimizationof injection parameters in a Low Premixed Prevaporized (LPP) injection system for a combustor chamber.

Key words:multi-objective optimization, response surface, neural network, design of experiments, bootstrap

Introduction

Thispaperoutlinessomeoptimiza-tion research done at ONERA within the context of an ONERA Internal project (PRF DOOM) and a Euro-pean project (INTELLECT D.M.). Becauseoptimizationrequiresalot ofcomputations,theuseofresponse surface model (RSM) is a good so-lutiontodecreaseCPUtime.The setofpointsforttingRSMtoeach objective function is provided by a

Corresponding Email address: (Patricia Klotz).

author klotz@onera.fr

designofexperiments.Weusehere Latin Hypercube Sampling (LHS) whichcombinesdeterministicand randomsamplinginordertoreduce thevarianceoftheRSM.Thenum-ber of necessary points and their best locationcanbebothimproved.Our purposeistodeneaneconomicway to design a RSM which will be used foroptimization.Wecannoticethat dependingontypeofsurface,some RSMaremoreecientthanothers, but unfortunately it can’t be pre-dicted.Themethodologydeveloped canbeappliedtoallproblemswhere computationtimeisdeterminant. Inthesectionsthatfollow,atrst,

Preprint submitted to Aerospace Science and Technology

10 July 2007