Main functionsEssential functionality |
|
---|---|
Function to set up a kinetic model with one or more state variables |
|
Fit a kinetic model to data with one or more state variables |
|
Fit one or more kinetic models with one or more state variables to one or more datasets |
|
Fit nonlinear mixed-effects models built from one or more kinetic degradation models and one or more error models |
|
GenericsGeneric functions introduced by the package |
|
Extract model parameters |
|
Method to get status information for fit array objects |
|
|
Method to get the names of ill-defined parameters |
Function to calculate endpoints for further use from kinetic models fitted with mkinfit |
|
Calculate Akaike weights for model averaging |
|
Show resultsFunctions working with mkinfit objects |
|
Plot the observed data and the fitted model of an mkinfit object |
|
Summary method for class "mkinfit" |
|
Confidence intervals for parameters of mkinfit objects |
|
Update an mkinfit model with different arguments |
|
Likelihood ratio test for mkinfit models |
|
Lack-of-fit test for models fitted to data with replicates |
|
Calculate the minimum error to assume in order to pass the variance test |
|
Export a list of datasets format to a CAKE study file |
|
Work with mmkin objectsFunctions working with aggregated results |
|
Subsetting method for mmkin objects |
|
Plot model fits (observed and fitted) and the residuals for a row or column of an mmkin object |
|
Calculate the AIC for a column of an mmkin object |
|
Summary method for class "mmkin" |
|
Mixed modelsCreate and work with nonlinear hierarchical models |
|
Create an nlme model for an mmkin row object |
|
|
Fit nonlinear mixed models with SAEM |
Fit nonlinear mixed-effects models built from one or more kinetic degradation models and one or more error models |
|
Plot predictions from a fitted nonlinear mixed model obtained via an mmkin row object |
|
Summary method for class "nlme.mmkin" |
|
Summary method for class "saem.mmkin" |
|
Anova method for saem.mmkin objects |
|
logLik method for saem.mmkin objects |
|
Helper functions to create nlme models from mmkin row objects |
|
Retrieve a degradation function from the mmkin namespace |
|
Create a mixed effects model from an mmkin row object |
|
Objects exported from other packages |
|
Confidence intervals for parameters in saem.mmkin objects |
|
Perform a hierarchical model fit with multiple starting values |
|
Plot the distribution of log likelihoods from multistart objects |
|
Plot parameter variability of multistart objects |
|
Datasets and known results |
|
FOCUS default values for soil moisture contents at field capacity, MWHC and 1/3 bar |
|
Aerobic soil degradation data on 2,4-D from the EU assessment in 2014 |
|
Aerobic soil degradation data on dimethenamid and dimethenamid-P from the EU assessment in 2018 |
|
|
Datasets A to F from the FOCUS Kinetics report from 2006 |
Results of fitting the SFO model to Datasets A to F of FOCUS (2006) |
|
Results of fitting the FOMC model to Datasets A to F of FOCUS (2006) |
|
Results of fitting the HS model to Datasets A to F of FOCUS (2006) |
|
Results of fitting the DFOP model to Datasets A to B of FOCUS (2006) |
|
Example datasets from the NAFTA SOP published 2015 |
|
Example datasets from Attachment 1 to the NAFTA SOP published 2015 |
|
Datasets on aerobic soil metabolism of 2,4,5-T in six soils |
|
Metabolism data set used for checking the software quality of KinGUI |
|
Synthetic datasets for one parent compound with two metabolites |
|
Experimental datasets used for development and testing of error models |
|
Three experimental datasets from two water sediment systems and one soil |
|
A dataset class for mkin |
|
A class for dataset groups for mkin |
|
NAFTA guidance |
|
Evaluate parent kinetics using the NAFTA guidance |
|
Plot the results of the three models used in the NAFTA scheme. |
|
Utility functions |
|
Normalisation factors for aerobic soil degradation according to FOCUS guidance |
|
Set non-detects and unquantified values in residue series without replicates |
|
|
Function to calculate maximum time weighted average concentrations from kinetic models fitted with mkinfit |
Convert a dataframe with observations over time into long format |
|
Convert a dataframe from long to wide format |
|
Helper functions mainly used internally |
|
Produce predictions from a kinetic model using specific parameters |
|
Functions to transform and backtransform kinetic parameters for fitting |
|
Function to perform isometric log-ratio transformation |
|
Calculated the log-likelihood of a fitted mkinfit object |
|
Extract residuals from an mkinfit model |
|
Number of observations on which an mkinfit object was fitted |
|
Function to plot residuals stored in an mkin object |
|
Function to plot the confidence intervals obtained using mkinfit |
|
Function to plot squared residuals and the error model for an mkin object |
|
Calculate mean degradation parameters for an mmkin row object |
|
Create degradation functions for known analytical solutions |
|
Analytical solutionsParent only model solutions |
|
Single First-Order kinetics |
|
First-Order Multi-Compartment kinetics |
|
Double First-Order in Parallel kinetics |
|
Single First-Order Reversible Binding kinetics |
|
Hockey-Stick kinetics |
|
Indeterminate order rate equation kinetics |
|
Logistic kinetics |
|
Generate synthetic datasets |
|
Add normally distributed errors to simulated kinetic degradation data |
|
Two-component error model |
|
Deprecated functionsFunctions that have been superseded |
|
Plot the observed data and the fitted model of an mkinfit object |