Procedures are introduced and discussed for increasing the computational and statistical efficiency of polynomial transformations used in Monte Carlo or simulation studies. Comparisons are also made between polynomials of order three and five in terms of (a) computational and statistical efficiency, (b) the skew and kurtosis boundary, and (c) boundaries for Pearson correlations. It is also shown how ranked data can be simulated for specified Spearman correlations and sample sizes. Potential consequences of nonmonotonic transformations on rank correlations are also discussed. , Monte Carlo methods, polynomial transformations, nonnormalit
In engineering design and analysis, proper assessment of stochastic features of model outputs is ess...
This paper introduces two families of distributions referred to as the symmetric κ and asymmetric κL...
Power method polynomials are used for simulating non-normal distributions with specified product mom...
Procedures are introduced and discussed for increasing the computational and statistical efficiency ...
Procedures are introduced and discussed for increasing the computational and statistical efficiency ...
The power method polynomial transformation is a popular procedure used for simulating univariate and...
Focusing on both univariate and multivariate nonnormal data generation, this book presents technique...
The power method polynomial transformation is a popular procedure used for simulating univariate and...
Monte Carlo simulations have become the workhorse of the modern methodologist aimed at providing bot...
Many inferential statistical tests require that the observed variables have a normal distribution. M...
Normal transformation is often used in probabilistic analysis especially when multivariate non-norma...
This paper derives a standard normal based power method polynomial transformation for Monte Carlo si...
This paper provides the requisite information and description of software that perform numerical co...
Headrick’s book is a valuable addition to the simulation world in the sense that it is the first sys...
This paper derives closed-form solutions for the fifth-ordered power method poly- nomial transformat...
In engineering design and analysis, proper assessment of stochastic features of model outputs is ess...
This paper introduces two families of distributions referred to as the symmetric κ and asymmetric κL...
Power method polynomials are used for simulating non-normal distributions with specified product mom...
Procedures are introduced and discussed for increasing the computational and statistical efficiency ...
Procedures are introduced and discussed for increasing the computational and statistical efficiency ...
The power method polynomial transformation is a popular procedure used for simulating univariate and...
Focusing on both univariate and multivariate nonnormal data generation, this book presents technique...
The power method polynomial transformation is a popular procedure used for simulating univariate and...
Monte Carlo simulations have become the workhorse of the modern methodologist aimed at providing bot...
Many inferential statistical tests require that the observed variables have a normal distribution. M...
Normal transformation is often used in probabilistic analysis especially when multivariate non-norma...
This paper derives a standard normal based power method polynomial transformation for Monte Carlo si...
This paper provides the requisite information and description of software that perform numerical co...
Headrick’s book is a valuable addition to the simulation world in the sense that it is the first sys...
This paper derives closed-form solutions for the fifth-ordered power method poly- nomial transformat...
In engineering design and analysis, proper assessment of stochastic features of model outputs is ess...
This paper introduces two families of distributions referred to as the symmetric κ and asymmetric κL...
Power method polynomials are used for simulating non-normal distributions with specified product mom...