plot_goodnessOfFit: plot_goodnessOfFit
In CGNM: Cluster Gauss-Newton Method
plot_goodnessOfFit R Documentation
plot_goodnessOfFit
Description
Make goodness of fit plots to assess the model-fit and bias in residual distribution. The linear model is fit to the residual and plotted using geom_smooth(method=lm) in ggplot.
Explanation of the terminologies in terms of PBPK model fitting to the time-course drug concentration measurements:
"independent variable" is time
"dependent variable" is the concentration.
"Residual" is the difference between the measured concentration and the model simulation with the parameter fond by the CGNM.
"m" is number of observations
Usage
plot_goodnessOfFit(
CGNM_result,
plotType = 1,
plotRank = c(1),
independentVariableVector = NA,
dependentVariableTypeVector = NA,
absResidual = FALSE
)
Arguments
CGNM_result
(required input) A list stores the computational result from Cluster_Gauss_Newton_method() function in CGNM package.
plotType
(default: 1) 1,2 or 3
specify the kind of goodness of fit plot to create
plotRank
(default: c(1)) a vector of integers
Specify which rank of the parameter to use for the goodness of fit plots. (e.g., if one wishes to use rank 1 to 100 then set it to be seq(1,100), or if one wish to use 88th rank parameters then set this as 88.)
independentVariableVector
(default: NA) a vector of numerics of length m
set independent variables that target values are associated with (e.g., time of the drug concentration measurement one is fitting PBPK model to)
(when this variable is set to NA, seq(1,m) will be used as independent variable when appropriate).
dependentVariableTypeVector
(default: NA) a vector of text of length m
when this variable is set (i.e., not NA) then the goodness of fit analyses is done for each variable type. For example, if we are fitting the PBPK model to data with multiple dose arms, one can see the goodness of fit for each dose arm by specifying which dose group the observations are from.
absResidual
(default: FALSE) TRUE or FALSE If TRUE plot absolute values of the residual.
Value
A ggplot object of the goodness of fit plot.
Examples
model_analytic_function=function(x){
observation_time=c(0.1,0.2,0.4,0.6,1,2,3,6,12)
Dose=1000
F=1
ka=10^x[1]
V1=10^x[2]
CL_2=10^x[3]
t=observation_time
Cp=ka*F*Dose/(V1*(ka-CL_2/V1))*(exp(-CL_2/V1*t)-exp(-ka*t))
log10(Cp)
}
observation=log10(c(4.91, 8.65, 12.4, 18.7, 24.3, 24.5, 18.4, 4.66, 0.238))
CGNM_result=Cluster_Gauss_Newton_method(
nonlinearFunction=model_analytic_function,
targetVector = observation,
initial_lowerRange = rep(0.01,3), initial_upperRange = rep(100,3),
lowerBound=rep(0,3), ParameterNames = c("Ka","V1","CL"),
num_iter = 10, num_minimizersToFind = 100, saveLog = FALSE)
plot_goodnessOfFit(CGNM_result)
plot_goodnessOfFit(CGNM_result,
independentVariableVector=c(0.1,0.2,0.4,0.6,1,2,3,6,12))
CGNM documentation built on June 22, 2024, 10:50 a.m.
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| plot_goodnessOfFit | R Documentation |
plot_goodnessOfFit
Description
Make goodness of fit plots to assess the model-fit and bias in residual distribution. The linear model is fit to the residual and plotted using geom_smooth(method=lm) in ggplot.
Explanation of the terminologies in terms of PBPK model fitting to the time-course drug concentration measurements:
"independent variable" is time
"dependent variable" is the concentration.
"Residual" is the difference between the measured concentration and the model simulation with the parameter fond by the CGNM.
"m" is number of observations
Usage
plot_goodnessOfFit(
CGNM_result,
plotType = 1,
plotRank = c(1),
independentVariableVector = NA,
dependentVariableTypeVector = NA,
absResidual = FALSE
)
Arguments
CGNM_result |
(required input) A list stores the computational result from Cluster_Gauss_Newton_method() function in CGNM package. |
plotType |
(default: 1) 1,2 or 3 |
plotRank |
(default: c(1)) a vector of integers |
independentVariableVector |
(default: NA) a vector of numerics of length m |
dependentVariableTypeVector |
(default: NA) a vector of text of length m |
absResidual |
(default: FALSE) TRUE or FALSE If TRUE plot absolute values of the residual. |
Value
A ggplot object of the goodness of fit plot.
Examples
model_analytic_function=function(x){
observation_time=c(0.1,0.2,0.4,0.6,1,2,3,6,12)
Dose=1000
F=1
ka=10^x[1]
V1=10^x[2]
CL_2=10^x[3]
t=observation_time
Cp=ka*F*Dose/(V1*(ka-CL_2/V1))*(exp(-CL_2/V1*t)-exp(-ka*t))
log10(Cp)
}
observation=log10(c(4.91, 8.65, 12.4, 18.7, 24.3, 24.5, 18.4, 4.66, 0.238))
CGNM_result=Cluster_Gauss_Newton_method(
nonlinearFunction=model_analytic_function,
targetVector = observation,
initial_lowerRange = rep(0.01,3), initial_upperRange = rep(100,3),
lowerBound=rep(0,3), ParameterNames = c("Ka","V1","CL"),
num_iter = 10, num_minimizersToFind = 100, saveLog = FALSE)
plot_goodnessOfFit(CGNM_result)
plot_goodnessOfFit(CGNM_result,
independentVariableVector=c(0.1,0.2,0.4,0.6,1,2,3,6,12))
R Package Documentation
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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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