Add to ORKGEngineering design optimization often gives rise to problems in which expensive objective functions are minimized by derivative-free methods. We propose a method for solving such problems that synthesizes ideas from the numerical optimization and computer experiment literatures. Our approach relies on kriging known function values to construct a sequence of surrogate models of the objective function that are used to guide a grid search for a minimizer. Results from numerical experiments on a standard test problem are presented
Engineers have used numerical methods for optimizing simulations representing real world problems. M...
The design and analysis of computer experiments (DACE) usually envisions performing a single experim...
The balance between exploration and exploitation is an important issue when attempting to find the g...
Engineering design optimization often gives rise to problems in which expensive objective functions ...
Engineering design optimization often gives rise to problems in which expensive objective functions ...
Abstract. A novel kriging-assisted algorithm is proposed for computationally expensive single-object...
The goal of the research reported here is to develop rigorous optimization algorithms to apply to so...
International audienceFor decades, numerical tool improvements enabled the optimization of complex p...
The paper proposes a global optimization algorithm employing surrogate modeling and adaptive infill ...
Recently there has been a growing interest in using response surface techniques to expedite the glob...
In this paper we discuss two statistical techniques for achieving computational economy during the o...
Design problems in electrical engineering are typically solved using a computationally expensive num...
International audienceThis work is devoted to the development of a new and efficient procedure for t...
<p>Computer experiments based on mathematical models are powerful tools for understanding physical p...
In a practical simulation-based design process most of the required simulations are carried out by u...
Engineers have used numerical methods for optimizing simulations representing real world problems. M...
The design and analysis of computer experiments (DACE) usually envisions performing a single experim...
The balance between exploration and exploitation is an important issue when attempting to find the g...
Engineering design optimization often gives rise to problems in which expensive objective functions ...
Engineering design optimization often gives rise to problems in which expensive objective functions ...
Abstract. A novel kriging-assisted algorithm is proposed for computationally expensive single-object...
The goal of the research reported here is to develop rigorous optimization algorithms to apply to so...
International audienceFor decades, numerical tool improvements enabled the optimization of complex p...
The paper proposes a global optimization algorithm employing surrogate modeling and adaptive infill ...
Recently there has been a growing interest in using response surface techniques to expedite the glob...
In this paper we discuss two statistical techniques for achieving computational economy during the o...
Design problems in electrical engineering are typically solved using a computationally expensive num...
International audienceThis work is devoted to the development of a new and efficient procedure for t...
<p>Computer experiments based on mathematical models are powerful tools for understanding physical p...
In a practical simulation-based design process most of the required simulations are carried out by u...
Engineers have used numerical methods for optimizing simulations representing real world problems. M...
The design and analysis of computer experiments (DACE) usually envisions performing a single experim...
The balance between exploration and exploitation is an important issue when attempting to find the g...