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R/GendataLGM.R
In MFSIS: Model-Free Sure Independent Screening Procedures
Defines functions
GendataLGM
Documented in
GendataLGM
#' Generate simulation data (Binary category data based on logistic model)
#'
#' This function helps you quickly generate simulation data based on logistic model.
#' You just need to input the sample and dimension of the data
#' you want to generate and the covariance parameter rho.
#'
#' @param n Number of subjects in the dataset to be simulated. It will also equal to the
#' number of rows in the dataset to be simulated, because it is assumed that each
#' row represents a different independent and identically distributed subject.
#' @param p Number of predictor variables (covariates) in the simulated dataset.
#' These covariates will be the features screened by model-free procedures.
#' @param rho The correlation between adjacent covariates in the simulated matrix X.
#' The within-subject covariance matrix of X is assumed to has the same form as an
#' AR(1) auto-regressive covariance matrix, although this is not meant to imply
#' that the X covariates for each subject are in fact a time series. Instead, it is just
#' used as an example of a parsimonious but nontrivial covariance structure. If
#' rho is left at the default of zero, the X covariates will be independent and the
#' simulation will run faster.
#' @param beta A vector with length of n, which are the coefficients that you want to generate
#' about Linear model. The default is beta=(1,1,1,1,1,0,...,0)^T;
#'
#' @return the list of your simulation data
#' @import MASS
#' @importFrom MASS mvrnorm
#' @importFrom stats rbinom
#' @export
#' @author Xuewei Cheng \email{xwcheng@hunnu.edu.cn}
#' @examples
#' n <- 100
#' p <- 200
#' rho <- 0.5
#' data <- GendataLGM(n, p, rho)
GendataLGM <- function(n, p, rho,
beta = c(rep(1, 5), rep(0, p - 5))) # n sample size; p dimension size.
{
sig <- matrix(0, p, p)
sig <- rho^abs(row(sig) - col(sig))
diag(sig) <- rep(1, p)
X <- mvrnorm(n, rep(0, p), sig)
feta <- X %*% beta
fprob <- exp(feta) / (1 + exp(feta))
Y <- rbinom(n, 1, fprob)
return(list(X = X, Y = Y))
}
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Defines functions GendataLGM
Documented in GendataLGM
#' Generate simulation data (Binary category data based on logistic model)
#'
#' This function helps you quickly generate simulation data based on logistic model.
#' You just need to input the sample and dimension of the data
#' you want to generate and the covariance parameter rho.
#'
#' @param n Number of subjects in the dataset to be simulated. It will also equal to the
#' number of rows in the dataset to be simulated, because it is assumed that each
#' row represents a different independent and identically distributed subject.
#' @param p Number of predictor variables (covariates) in the simulated dataset.
#' These covariates will be the features screened by model-free procedures.
#' @param rho The correlation between adjacent covariates in the simulated matrix X.
#' The within-subject covariance matrix of X is assumed to has the same form as an
#' AR(1) auto-regressive covariance matrix, although this is not meant to imply
#' that the X covariates for each subject are in fact a time series. Instead, it is just
#' used as an example of a parsimonious but nontrivial covariance structure. If
#' rho is left at the default of zero, the X covariates will be independent and the
#' simulation will run faster.
#' @param beta A vector with length of n, which are the coefficients that you want to generate
#' about Linear model. The default is beta=(1,1,1,1,1,0,...,0)^T;
#'
#' @return the list of your simulation data
#' @import MASS
#' @importFrom MASS mvrnorm
#' @importFrom stats rbinom
#' @export
#' @author Xuewei Cheng \email{xwcheng@hunnu.edu.cn}
#' @examples
#' n <- 100
#' p <- 200
#' rho <- 0.5
#' data <- GendataLGM(n, p, rho)
GendataLGM <- function(n, p, rho,
beta = c(rep(1, 5), rep(0, p - 5))) # n sample size; p dimension size.
{
sig <- matrix(0, p, p)
sig <- rho^abs(row(sig) - col(sig))
diag(sig) <- rep(1, p)
X <- mvrnorm(n, rep(0, p), sig)
feta <- X %*% beta
fprob <- exp(feta) / (1 + exp(feta))
Y <- rbinom(n, 1, fprob)
return(list(X = X, Y = Y))
}
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