simndecay_gen_paramGUI: Simulate data In paramGUI: A Shiny GUI for some Parameter Estimation Examples

Description

Calculates an object of class 'kin'. <TODO>

Usage

 ```1 2 3 4 5 6 7 8``` ```simndecay_gen_paramGUI(kinpar, tmax, deltat, specpar = vector(), lmin, lmax, deltal, sigma, irf = FALSE, irfpar = vector(), seqmod = FALSE, dispmu = FALSE, nocolsums = FALSE, disptau = FALSE, parmu = list(), partau = vector(), lambdac = 0, fullk = FALSE, kmat = matrix(), jvec = vector(), specfun = "gaus", nupow = 1, irffun = "gaus", kinscal = vector(), lightregimespec = list(), specdisp = FALSE, specdisppar = list(), parmufunc = "exp", specdispindex = list(), amplitudes = vector(), specref = 0, nosiminfo = FALSE) ```

Arguments

 `kinpar` vector of rate constants `tmax` last time point `deltat` time step `specpar` vector of spectral parameters for location, width, skewness `lmin` minimum wavelength (nm) `lmax` maximum wavelength (nm) `deltal` wavelength step `sigma` noise level `irf` logical for IRF usage `irfpar` vector of IRF parameters for location, width `seqmod` logical for sequential model `dispmu` logical for dispersion of IRF location mu `nocolsums` logical for `disptau` logical for dispersion of IRF width tau `parmu` vector of dispersion parameters for IRF location mu `partau` vector of dispersion parameters for IRF width tau `lambdac` center wavelength for dispersion `fullk` logical for full K matrix `kmat` K matrix `jvec` input vector `specfun` function for spectral shape `nupow` power of nu in spectral model `irffun` function for IRF `kinscal` vector of kinetic scaling parameters `lightregimespec` `specdisp` logical for dispersion parameters of spectral parameters `specdisppar` vector of dispersion parameters of spectral parameters `parmufunc` `specdispindex` `amplitudes` amplitudes of components `specref` `nosiminfo` logical for hiding simulation information

Value

an object of class 'kin'

Author(s)

Katharine M. Mullen

Ivo H. M. van Stokkum

paramGUI documentation built on May 29, 2017, 5:18 p.m.