Nothing
R/superPC_model_LS.R
In pathwayPCA: Integrative Pathway Analysis with Modern PCA Methodology and Gene Selection
Defines functions
olsTrain_fun
Documented in
olsTrain_fun
#' Gene-specific Regularized Ordinary Least Squares fit statistics for supervised PCA
#'
#' @param x An \eqn{p \times n} predictor matrix.
#' @param y A response vector.
#' @param s0.perc Percentile of the standard error of the slope estimate to be
#' used for regularization. The Default value of \code{NULL} will use the
#' median of this distribution.
#'
#' @description Model statistics for Ordinary Least Squares (OLS) regression by
#' gene.
#'
#' @return A list of OLS model statistics:
#' \itemize{
#' \item{\code{tt} : }{The Student's \eqn{t} test statistic the slopes
#' (\eqn{\beta}).}
#' \item{\code{numer} : }{The estimate of \eqn{\beta}.}
#' \item{\code{sd} : }{The standard error of the estimates for \eqn{\beta}
#' (the standard error divided by the square root of Sxx).}
#' \item{\code{fudge} : }{A regularization parameter. See Details for
#' description.}
#' }
#'
#' @details This function calculates the Sxx, Syy, and Sxy sums from the gene-
#' specific OLS models, then calculates estimates of the regression slopes for
#' each gene and their corresponding regularized test statistics,
#' \deqn{t = \hat{\beta} / (sd + e),}
#' where \eqn{e} is a regularization parameter.
#'
#' If \code{s0.perc} is \code{NULL}, then \eqn{e} is median of the \code{sd}
#' values. Otherwise, \eqn{e} is set equal to \code{quantile(sd, s0.perc)}.
#'
#' @keywords internal
#'
#'
#' @examples
#' # DO NOT CALL THIS FUNCTION DIRECTLY.
#' # Use SuperPCA_pVals() instead
#'
#' \dontrun{
#' p <- 500
#' n <- 50
#'
#' x_mat <- matrix(rnorm(n * p), nrow = p, ncol = n)
#' time_int <- rpois(n, lambda = 365 * 2)
#'
#' olsTrain_fun(
#' x = x_mat,
#' y = time_int
#' )
#' }
#'
olsTrain_fun <- function(x, y, s0.perc = NULL){
# browser()
n <- length(y)
xbar <- x %*% rep(1 / n, n)
sxx <- ((x - as.vector(xbar)) ^ 2) %*% rep(1, n)
sxy <- (x - as.vector(xbar)) %*% (y - mean(y))
syy <- sum((y - mean(y)) ^ 2)
estBetas <- sxy / sxx
SSE <- syy - sxy ^ 2 / sxx
std_Err <- sqrt(SSE / (n - 2))
sd <- std_Err / sqrt(sxx)
if(is.null(s0.perc)){
fudge <- median(sd)
} else {
fudge <- ifelse(s0.perc >= 0, quantile(sd, s0.perc), 0)
}
tt <- estBetas / (sd + fudge)
### Return ###
out <- list(tt = tt, numer = estBetas,
sd = sd, fudge = fudge)
out
}
Try the pathwayPCA package in your browser
Any scripts or data that you put into this service are public.
pathwayPCA documentation built on Dec. 15, 2020, 6:14 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Defines functions olsTrain_fun
Documented in olsTrain_fun
#' Gene-specific Regularized Ordinary Least Squares fit statistics for supervised PCA
#'
#' @param x An \eqn{p \times n} predictor matrix.
#' @param y A response vector.
#' @param s0.perc Percentile of the standard error of the slope estimate to be
#' used for regularization. The Default value of \code{NULL} will use the
#' median of this distribution.
#'
#' @description Model statistics for Ordinary Least Squares (OLS) regression by
#' gene.
#'
#' @return A list of OLS model statistics:
#' \itemize{
#' \item{\code{tt} : }{The Student's \eqn{t} test statistic the slopes
#' (\eqn{\beta}).}
#' \item{\code{numer} : }{The estimate of \eqn{\beta}.}
#' \item{\code{sd} : }{The standard error of the estimates for \eqn{\beta}
#' (the standard error divided by the square root of Sxx).}
#' \item{\code{fudge} : }{A regularization parameter. See Details for
#' description.}
#' }
#'
#' @details This function calculates the Sxx, Syy, and Sxy sums from the gene-
#' specific OLS models, then calculates estimates of the regression slopes for
#' each gene and their corresponding regularized test statistics,
#' \deqn{t = \hat{\beta} / (sd + e),}
#' where \eqn{e} is a regularization parameter.
#'
#' If \code{s0.perc} is \code{NULL}, then \eqn{e} is median of the \code{sd}
#' values. Otherwise, \eqn{e} is set equal to \code{quantile(sd, s0.perc)}.
#'
#' @keywords internal
#'
#'
#' @examples
#' # DO NOT CALL THIS FUNCTION DIRECTLY.
#' # Use SuperPCA_pVals() instead
#'
#' \dontrun{
#' p <- 500
#' n <- 50
#'
#' x_mat <- matrix(rnorm(n * p), nrow = p, ncol = n)
#' time_int <- rpois(n, lambda = 365 * 2)
#'
#' olsTrain_fun(
#' x = x_mat,
#' y = time_int
#' )
#' }
#'
olsTrain_fun <- function(x, y, s0.perc = NULL){
# browser()
n <- length(y)
xbar <- x %*% rep(1 / n, n)
sxx <- ((x - as.vector(xbar)) ^ 2) %*% rep(1, n)
sxy <- (x - as.vector(xbar)) %*% (y - mean(y))
syy <- sum((y - mean(y)) ^ 2)
estBetas <- sxy / sxx
SSE <- syy - sxy ^ 2 / sxx
std_Err <- sqrt(SSE / (n - 2))
sd <- std_Err / sqrt(sxx)
if(is.null(s0.perc)){
fudge <- median(sd)
} else {
fudge <- ifelse(s0.perc >= 0, quantile(sd, s0.perc), 0)
}
tt <- estBetas / (sd + fudge)
### Return ###
out <- list(tt = tt, numer = estBetas,
sd = sd, fudge = fudge)
out
}
Try the pathwayPCA package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.