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R/mxtrmodstart.R
In metabomxtr: A package to run mixture models for truncated metabolomics data with normal or lognormal distributions
Defines functions
mxtrmodstart
Documented in
mxtrmodstart
mxtrmodstart <-
function(obsY,xVars,zVars,includeDiscrete){
#######################################################################################
# Specifies the starting values to use for optimization of the mxtrmodLL function.
#
# Args:
# obsY: A vector containing the response variable, which must be normally or log
# normally distributed. If lognormal, log transformed Y's should be input
# as the response variable. Missing Y values should be indicated by NA.
# xVars: The design matrix for the coavariates included in the discrete portion
# of the model.
# zVars: The design matrix for the covariates inlcuded in the continuous portion
# of the model.
# includeDiscrete: A logical indicator for whether or not to include the discrete
# portion of the model.
# Returns:
# A vector containing the starting values for each parameter in the
# mixture model function, to be used as starting points when optimizing
# the parameter estimates.
#########################################################################################
####################################################################################
# If includeDiscrete is false, specify starting values for the model excluding the
# discrete component
####################################################################################
if(!includeDiscrete){
#Determine the number of covariates for the continuous portion of the model
nContinuous <- dim(zVars)[2]
#Use the mean of the observed responses as the starting value for the intercept term
beta0 <- mean(obsY,na.rm=TRUE)
#Use 0 as the starting value for the remaining beta parameters.
if (nContinuous>1){
betaStart <- c(beta0,rep(0,nContinuous-1))
} else {
betaStart <- beta0
}
#Use the standard deviation of observed responses as the starting value for the variance
#parameter
sigmaStart <- sd(obsY,na.rm=TRUE)
#Combine starting values into one vector
startVals <- c(betaStart,sigmaStart)
}
####################################################################################
# If includeDiscrete is true, specify starting values for the model including both
# discrete and continuous portions
####################################################################################
if(includeDiscrete){
#Determine number of covariates for the categorical portion of the model
nDiscrete <- dim(xVars)[2]
#Determine number of covariates for the continuous portion of the model
nContinuous <- dim(zVars)[2]
#Use the log odds of having observed a response as the starting value for
#the intercept term of the discrete component of the model.
p0 <- sum(!is.na(obsY))/length(obsY)
alpha0 <- log(p0/(1-p0))
#Use 0 as the starting value for the remaining alpha parameters.
if (nDiscrete>1){
alphaStart <- c(alpha0,rep(0,nDiscrete-1))
} else {
alphaStart <- alpha0
}
#Use the mean of the observed responses as the starting value for the intercept term
#of the continuous portion
beta0 <- mean(obsY,na.rm=TRUE)
#Use 0 as the starting value for the remaining beta parameters.
if (nContinuous>1){
betaStart <- c(beta0,rep(0,nContinuous-1))
} else {
betaStart <- beta0
}
#Use the standard deviation of observed responses as the starting value for the variance
#parameter
sigmaStart <- sd(obsY,na.rm=TRUE)
#Combine starting values into one vector
startVals <- c(alphaStart,betaStart,sigmaStart)
}
startVals
}
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metabomxtr documentation built on Nov. 8, 2020, 6:50 p.m.
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Defines functions mxtrmodstart
Documented in mxtrmodstart
mxtrmodstart <-
function(obsY,xVars,zVars,includeDiscrete){
#######################################################################################
# Specifies the starting values to use for optimization of the mxtrmodLL function.
#
# Args:
# obsY: A vector containing the response variable, which must be normally or log
# normally distributed. If lognormal, log transformed Y's should be input
# as the response variable. Missing Y values should be indicated by NA.
# xVars: The design matrix for the coavariates included in the discrete portion
# of the model.
# zVars: The design matrix for the covariates inlcuded in the continuous portion
# of the model.
# includeDiscrete: A logical indicator for whether or not to include the discrete
# portion of the model.
# Returns:
# A vector containing the starting values for each parameter in the
# mixture model function, to be used as starting points when optimizing
# the parameter estimates.
#########################################################################################
####################################################################################
# If includeDiscrete is false, specify starting values for the model excluding the
# discrete component
####################################################################################
if(!includeDiscrete){
#Determine the number of covariates for the continuous portion of the model
nContinuous <- dim(zVars)[2]
#Use the mean of the observed responses as the starting value for the intercept term
beta0 <- mean(obsY,na.rm=TRUE)
#Use 0 as the starting value for the remaining beta parameters.
if (nContinuous>1){
betaStart <- c(beta0,rep(0,nContinuous-1))
} else {
betaStart <- beta0
}
#Use the standard deviation of observed responses as the starting value for the variance
#parameter
sigmaStart <- sd(obsY,na.rm=TRUE)
#Combine starting values into one vector
startVals <- c(betaStart,sigmaStart)
}
####################################################################################
# If includeDiscrete is true, specify starting values for the model including both
# discrete and continuous portions
####################################################################################
if(includeDiscrete){
#Determine number of covariates for the categorical portion of the model
nDiscrete <- dim(xVars)[2]
#Determine number of covariates for the continuous portion of the model
nContinuous <- dim(zVars)[2]
#Use the log odds of having observed a response as the starting value for
#the intercept term of the discrete component of the model.
p0 <- sum(!is.na(obsY))/length(obsY)
alpha0 <- log(p0/(1-p0))
#Use 0 as the starting value for the remaining alpha parameters.
if (nDiscrete>1){
alphaStart <- c(alpha0,rep(0,nDiscrete-1))
} else {
alphaStart <- alpha0
}
#Use the mean of the observed responses as the starting value for the intercept term
#of the continuous portion
beta0 <- mean(obsY,na.rm=TRUE)
#Use 0 as the starting value for the remaining beta parameters.
if (nContinuous>1){
betaStart <- c(beta0,rep(0,nContinuous-1))
} else {
betaStart <- beta0
}
#Use the standard deviation of observed responses as the starting value for the variance
#parameter
sigmaStart <- sd(obsY,na.rm=TRUE)
#Combine starting values into one vector
startVals <- c(alphaStart,betaStart,sigmaStart)
}
startVals
}
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Any scripts or data that you put into this service are public.
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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