fitLogNormDist: Nonlinear fit of Log-Normal CDF (LogNorm)
In genomaths/MethylIT: Methylation Analysis Based on Signal Detection
fitLogNormDist R Documentation
Nonlinear fit of Log-Normal CDF (LogNorm)
Description
This function performs the nonlinear fit of GGamma CDF of a
variable x
Usage
fitLogNormDist(
x,
probability.x,
parameter.values,
summarized.data = FALSE,
sample.size = 20,
npoints = NULL,
maxiter = 1024,
ftol = 1e-12,
ptol = 1e-12,
maxfev = 1e+05,
verbose = TRUE
)
Arguments
x
numerical vector
probability.x
probability vector of x. If not provided, the values
are estimated using the empirical cumulative distribution function
('ecdf') from 'stats' R package.
parameter.values
initial parameter values for the nonlinear fit. If
the locator parameter is included (mu != 0), this must be given as
parameter.values = list(alpha = 'value', scale = 'value', mu = 'value')
or if mu = 0, as: parameter.values = list(alpha = 'value',
scale = 'value'). If not provided, then an initial guess is provided.
summarized.data
Logic value. If TRUE (default: FALSE), summarized
data based on 'npoints' are used to perform the nonlinear fit.
sample.size
size of the sample.
npoints
number of points used in the fit.
maxiter
positive integer. Termination occurs when the number of
iterations reaches maxiter. Default value: 1024.
ftol
non-negative numeric. Termination occurs when both the actual
and predicted relative reductions in the sum of squares are at most ftol.
Therefore, ftol measures the relative error desired in the sum of
squares. Default value: 1e-12
ptol
non-negative numeric. Termination occurs when the relative error
between two consecutive iterates is at most ptol. Therefore, ptol
measures the relative error desired in the approximate solution.
Default value: 1e-12.
maxfev
integer; termination occurs when the number of calls to fn has
reached maxfev. Note that nls.lm sets the value of maxfev to
100*(length(par) + 1) if maxfev = integer(), where par is the list or
vector of parameters to be optimized.
verbose
if TRUE, prints the function log to stdout
Details
The algorithm tries to fit the two-parameter LogNorm CDF
using a modification of Levenberg-Marquardt algorithm implemented in function
'nls.lm' from 'minpack.lm' package that is used to perform the nonlinear fit.
Cross-validations for the nonlinear regressions (R.Cross.val) were performed
in each methylome as described in reference (1). In addition, Stein's formula
for adjusted R squared (rho) was used as an estimator of the average
cross-validation predictive power (1).
If the number of values to fit is >10^6, the fitting to a LogNorm CDF would
be a time consuming task. To reduce the computational time, the option
'summarized.data' can be set 'TRUE'. If summarized.data = TRUE, the original
variable values are summarized into 'npoint' bins and their midpoints are
used as the new predictors. In this case, only the goodness-of-fit indicators
AIC and R.Cross.val are estimated based on all the original variable x
values.
Value
Model table with coefficients and goodness-of-fit results:
Adj.R.Square, deviance, AIC, R.Cross.val, and rho, as well as, the
coefficient covariance matrix.
Author(s)
Robersy Sanchez - 04/09/2019
References
Stevens JP. Applied Multivariate Statistics for the Social
Sciences. Fifth Edit. Routledge Academic; 2009.
Examples
set.seed(126)
x <- rlnorm(1000, meanlog = 1.03, sdlog = 2.1)
fitLogNormDist(x)
genomaths/MethylIT documentation built on Feb. 3, 2024, 1:24 a.m.
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| fitLogNormDist | R Documentation |
Nonlinear fit of Log-Normal CDF (LogNorm)
Description
This function performs the nonlinear fit of GGamma CDF of a variable x
Usage
fitLogNormDist(
x,
probability.x,
parameter.values,
summarized.data = FALSE,
sample.size = 20,
npoints = NULL,
maxiter = 1024,
ftol = 1e-12,
ptol = 1e-12,
maxfev = 1e+05,
verbose = TRUE
)
Arguments
x |
numerical vector |
probability.x |
probability vector of x. If not provided, the values are estimated using the empirical cumulative distribution function ('ecdf') from 'stats' R package. |
parameter.values |
initial parameter values for the nonlinear fit. If the locator parameter is included (mu != 0), this must be given as parameter.values = list(alpha = 'value', scale = 'value', mu = 'value') or if mu = 0, as: parameter.values = list(alpha = 'value', scale = 'value'). If not provided, then an initial guess is provided. |
summarized.data |
Logic value. If TRUE (default: FALSE), summarized data based on 'npoints' are used to perform the nonlinear fit. |
sample.size |
size of the sample. |
npoints |
number of points used in the fit. |
maxiter |
positive integer. Termination occurs when the number of iterations reaches maxiter. Default value: 1024. |
ftol |
non-negative numeric. Termination occurs when both the actual and predicted relative reductions in the sum of squares are at most ftol. Therefore, ftol measures the relative error desired in the sum of squares. Default value: 1e-12 |
ptol |
non-negative numeric. Termination occurs when the relative error between two consecutive iterates is at most ptol. Therefore, ptol measures the relative error desired in the approximate solution. Default value: 1e-12. |
maxfev |
integer; termination occurs when the number of calls to fn has reached maxfev. Note that nls.lm sets the value of maxfev to 100*(length(par) + 1) if maxfev = integer(), where par is the list or vector of parameters to be optimized. |
verbose |
if TRUE, prints the function log to stdout |
Details
The algorithm tries to fit the two-parameter LogNorm CDF using a modification of Levenberg-Marquardt algorithm implemented in function 'nls.lm' from 'minpack.lm' package that is used to perform the nonlinear fit. Cross-validations for the nonlinear regressions (R.Cross.val) were performed in each methylome as described in reference (1). In addition, Stein's formula for adjusted R squared (rho) was used as an estimator of the average cross-validation predictive power (1).
If the number of values to fit is >10^6, the fitting to a LogNorm CDF would be a time consuming task. To reduce the computational time, the option 'summarized.data' can be set 'TRUE'. If summarized.data = TRUE, the original variable values are summarized into 'npoint' bins and their midpoints are used as the new predictors. In this case, only the goodness-of-fit indicators AIC and R.Cross.val are estimated based on all the original variable x values.
Value
Model table with coefficients and goodness-of-fit results: Adj.R.Square, deviance, AIC, R.Cross.val, and rho, as well as, the coefficient covariance matrix.
Author(s)
Robersy Sanchez - 04/09/2019
References
Stevens JP. Applied Multivariate Statistics for the Social Sciences. Fifth Edit. Routledge Academic; 2009.
Examples
set.seed(126)
x <- rlnorm(1000, meanlog = 1.03, sdlog = 2.1)
fitLogNormDist(x)
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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