An Effective Ensemble-Based Method for Creating On-the-Fly Surrogate Fitness Functions for Multi-Objective Evolutionary Algorithms

Ciprian Zavoianu; Edwin Lughofer; Gerd Bramerdorfer; Wolfgang Amrhein; Erich Klement

An Effective Ensemble-Based Method for Creating On-the-Fly Surrogate Fitness Functions for Multi-Objective Evolutionary Algorithms

Ciprian Zavoianu, Edwin Lughofer, Gerd Bramerdorfer, Wolfgang Amrhein, Erich Klement

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

The task of designing electrical drives is a multiobjective optimization problem (MOOP) that remains very slow even when using state-of-the-art approaches like particle swarm optimization and evolutionary algorithms because the fitness function used to assess the quality of a proposed design is based on time-intensive finite element (FE) simulations. One straightforward solution is to replace the original FE-based fitness function with a much faster-to-evaluate surrogate. In our particular case each optimization scenario poses rather unique challenges (i.e., goals and constraints) and the surrogate models need to be constructed on-the-fly, automatically, during the run of the evolutionary algorithm. In the present research, using three industrial MOOPs, we investigated several approaches for creating such surrogate models and discovered that a strategy that uses ensembles of multi-layer perceptron neural networks and Pareto-trimmed training sets is able to produce very high quality surrogate models in a relatively short time interval.

Original language	English
Title of host publication	15th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing, SYNASC 2013
Publisher	IEEE Conference Publishing Services (CPS)
Pages	to appear
Number of pages	8
Publication status	Published - 2013

Fields of science

101001 Algebra
101 Mathematics
102 Computer Sciences
101013 Mathematical logic
101020 Technical mathematics
102001 Artificial intelligence
102003 Image processing
202027 Mechatronics
101019 Stochastics
211913 Quality assurance

JKU Focus areas

Computation in Informatics and Mathematics
Mechatronics and Information Processing

Cite this

Zavoianu, C., Lughofer, E., Bramerdorfer, G., Amrhein, W., & Klement, E. (2013). An Effective Ensemble-Based Method for Creating On-the-Fly Surrogate Fitness Functions for Multi-Objective Evolutionary Algorithms. In 15th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing, SYNASC 2013 (pp. to appear). Article 6821155 IEEE Conference Publishing Services (CPS).

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title = "An Effective Ensemble-Based Method for Creating On-the-Fly Surrogate Fitness Functions for Multi-Objective Evolutionary Algorithms",

abstract = "The task of designing electrical drives is a multiobjective optimization problem (MOOP) that remains very slow even when using state-of-the-art approaches like particle swarm optimization and evolutionary algorithms because the fitness function used to assess the quality of a proposed design is based on time-intensive finite element (FE) simulations. One straightforward solution is to replace the original FE-based fitness function with a much faster-to-evaluate surrogate. In our particular case each optimization scenario poses rather unique challenges (i.e., goals and constraints) and the surrogate models need to be constructed on-the-fly, automatically, during the run of the evolutionary algorithm. In the present research, using three industrial MOOPs, we investigated several approaches for creating such surrogate models and discovered that a strategy that uses ensembles of multi-layer perceptron neural networks and Pareto-trimmed training sets is able to produce very high quality surrogate models in a relatively short time interval.",

author = "Ciprian Zavoianu and Edwin Lughofer and Gerd Bramerdorfer and Wolfgang Amrhein and Erich Klement",

year = "2013",

language = "English",

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booktitle = "15th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing, SYNASC 2013",

publisher = "IEEE Conference Publishing Services (CPS)",

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Zavoianu, C, Lughofer, E, Bramerdorfer, G , Amrhein, W & Klement, E 2013, An Effective Ensemble-Based Method for Creating On-the-Fly Surrogate Fitness Functions for Multi-Objective Evolutionary Algorithms. in 15th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing, SYNASC 2013., 6821155, IEEE Conference Publishing Services (CPS), pp. to appear.

An Effective Ensemble-Based Method for Creating On-the-Fly Surrogate Fitness Functions for Multi-Objective Evolutionary Algorithms. / Zavoianu, Ciprian; Lughofer, Edwin; Bramerdorfer, Gerd et al.
15th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing, SYNASC 2013. IEEE Conference Publishing Services (CPS), 2013. p. to appear 6821155.

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

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T1 - An Effective Ensemble-Based Method for Creating On-the-Fly Surrogate Fitness Functions for Multi-Objective Evolutionary Algorithms

AU - Zavoianu, Ciprian

AU - Lughofer, Edwin

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AU - Amrhein, Wolfgang

AU - Klement, Erich

PY - 2013

Y1 - 2013

N2 - The task of designing electrical drives is a multiobjective optimization problem (MOOP) that remains very slow even when using state-of-the-art approaches like particle swarm optimization and evolutionary algorithms because the fitness function used to assess the quality of a proposed design is based on time-intensive finite element (FE) simulations. One straightforward solution is to replace the original FE-based fitness function with a much faster-to-evaluate surrogate. In our particular case each optimization scenario poses rather unique challenges (i.e., goals and constraints) and the surrogate models need to be constructed on-the-fly, automatically, during the run of the evolutionary algorithm. In the present research, using three industrial MOOPs, we investigated several approaches for creating such surrogate models and discovered that a strategy that uses ensembles of multi-layer perceptron neural networks and Pareto-trimmed training sets is able to produce very high quality surrogate models in a relatively short time interval.

AB - The task of designing electrical drives is a multiobjective optimization problem (MOOP) that remains very slow even when using state-of-the-art approaches like particle swarm optimization and evolutionary algorithms because the fitness function used to assess the quality of a proposed design is based on time-intensive finite element (FE) simulations. One straightforward solution is to replace the original FE-based fitness function with a much faster-to-evaluate surrogate. In our particular case each optimization scenario poses rather unique challenges (i.e., goals and constraints) and the surrogate models need to be constructed on-the-fly, automatically, during the run of the evolutionary algorithm. In the present research, using three industrial MOOPs, we investigated several approaches for creating such surrogate models and discovered that a strategy that uses ensembles of multi-layer perceptron neural networks and Pareto-trimmed training sets is able to produce very high quality surrogate models in a relatively short time interval.

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Zavoianu C, Lughofer E, Bramerdorfer G , Amrhein W , Klement E. An Effective Ensemble-Based Method for Creating On-the-Fly Surrogate Fitness Functions for Multi-Objective Evolutionary Algorithms. In 15th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing, SYNASC 2013. IEEE Conference Publishing Services (CPS). 2013. p. to appear. 6821155