<p>When fitting complex models, such as finite element or discrete event simulations, the experiment design should exhibit desirable properties of both projectivity and orthogonality. To reduce experimental effort, sequential design strategies allow experimenters to collect data only until some measure of prediction precision is reached. In this article, we present a batch sequential experiment design method that uses sliced full factorial-based Latin hypercube designs (sFFLHDs), which are an extension to the concept of sliced orthogonal array-based Latin hypercube designs (OALHDs). At all stages of the sequential design, good univariate stratification is achieved. The structure of the FFLHDs also tends to produce uniformity in higher dimen...
<p>Space-filling and projective properties of design of computer experiments methods are desired fea...
In the field of design of computer experiments (DoCE), Latin hypercube designs are frequently used f...
Latin hypercube designs (LHDs) have broad applications in constructing computer experiments and samp...
When fitting complex models, such as finite element or discrete event simulations, the experiment de...
We propose two methods for constructing a new type of design, called a nested orthogonal array-based...
<p>Sequential experiments composed of initial experiments and follow-up experiments are widely adopt...
This is an institute funded project reportLatin hypercube designs is a popular choice of experimenta...
Latin hypercube designs (LHDs) have been applied in many computer experiments among the space-fillin...
We propose an approach to constructing a new type of design, a sliced space-filling design, intended...
Computer models can describe complicated physical phenomena. Due to the highly nonlinear and complex...
We propose an approach to constructing a new type of design, a sliced space-filling design, intended...
We present a new method for constructing nearly orthogonal Latin hypercubes that greatly expands the...
Latin hypercube designs with zero pair-wise column correlations are examined for their space-filling...
Latin hypercube designs with zero pair-wise column correlations are examined for their space-filling...
The Latin hypercube design (LHD) is a popular choice of experimental design when computer simulation...
<p>Space-filling and projective properties of design of computer experiments methods are desired fea...
In the field of design of computer experiments (DoCE), Latin hypercube designs are frequently used f...
Latin hypercube designs (LHDs) have broad applications in constructing computer experiments and samp...
When fitting complex models, such as finite element or discrete event simulations, the experiment de...
We propose two methods for constructing a new type of design, called a nested orthogonal array-based...
<p>Sequential experiments composed of initial experiments and follow-up experiments are widely adopt...
This is an institute funded project reportLatin hypercube designs is a popular choice of experimenta...
Latin hypercube designs (LHDs) have been applied in many computer experiments among the space-fillin...
We propose an approach to constructing a new type of design, a sliced space-filling design, intended...
Computer models can describe complicated physical phenomena. Due to the highly nonlinear and complex...
We propose an approach to constructing a new type of design, a sliced space-filling design, intended...
We present a new method for constructing nearly orthogonal Latin hypercubes that greatly expands the...
Latin hypercube designs with zero pair-wise column correlations are examined for their space-filling...
Latin hypercube designs with zero pair-wise column correlations are examined for their space-filling...
The Latin hypercube design (LHD) is a popular choice of experimental design when computer simulation...
<p>Space-filling and projective properties of design of computer experiments methods are desired fea...
In the field of design of computer experiments (DoCE), Latin hypercube designs are frequently used f...
Latin hypercube designs (LHDs) have broad applications in constructing computer experiments and samp...