The Latin hypercube design (LHD) is a popular choice of experimental design when computer simulation is used to study a physical process. In this paper, we propose some methods for constructing nearly orthogonal Latin hypercube designs (NOLHDs) with 2, 4, 8, 12, 16, 20 and 24 factors having flexible run sizes. These designs can be very useful when orthogonal Latin hypercube designs (OLHDs) of the needed sizes do not exist
Latin hypercube designs (LHDs) have broad applications in constructing computer experiments and samp...
We develop in this thesis new methodologies for designing both computer experiments and physical exp...
Latin hypercube design is a good choice for computer experiments. In this paper, we construct a new ...
Not AvailableLatin hypercube designs (LHDs) are commonly used in designing computer experiments. In ...
A class of Orthogonal Latin Hypercubes (OLH) which preserves the orthogonality among columns is cons...
Computer models can describe complicated physical phenomena. Due to the highly nonlinear and complex...
We present a new method for constructing nearly orthogonal Latin hypercubes that greatly expands the...
Latin hypercube designs (LHDs) have been applied in many computer experiments among the space-fillin...
We propose two methods for constructing a new type of design, called a nested orthogonal array-based...
We propose a method for constructing orthogonal or nearly orthogonal Latin hypercubes. The method yi...
We propose a method for constructing orthogonal or nearly orthogonal Latin hypercubes. The method yi...
In the area of computer simulation Latin hypercube designs play an important role. In this paper the...
The use of optimal orthogonal array latin hypercube designs is proposed. Orthogonal arrays were prop...
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...
Latin hypercube designs (LHDs) have broad applications in constructing computer experiments and samp...
We develop in this thesis new methodologies for designing both computer experiments and physical exp...
Latin hypercube design is a good choice for computer experiments. In this paper, we construct a new ...
Not AvailableLatin hypercube designs (LHDs) are commonly used in designing computer experiments. In ...
A class of Orthogonal Latin Hypercubes (OLH) which preserves the orthogonality among columns is cons...
Computer models can describe complicated physical phenomena. Due to the highly nonlinear and complex...
We present a new method for constructing nearly orthogonal Latin hypercubes that greatly expands the...
Latin hypercube designs (LHDs) have been applied in many computer experiments among the space-fillin...
We propose two methods for constructing a new type of design, called a nested orthogonal array-based...
We propose a method for constructing orthogonal or nearly orthogonal Latin hypercubes. The method yi...
We propose a method for constructing orthogonal or nearly orthogonal Latin hypercubes. The method yi...
In the area of computer simulation Latin hypercube designs play an important role. In this paper the...
The use of optimal orthogonal array latin hypercube designs is proposed. Orthogonal arrays were prop...
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...
Latin hypercube designs (LHDs) have broad applications in constructing computer experiments and samp...
We develop in this thesis new methodologies for designing both computer experiments and physical exp...
Latin hypercube design is a good choice for computer experiments. In this paper, we construct a new ...