times-.fn: Concatenation of functions
In dMod: Dynamic Modeling and Parameter Estimation in ODE Models
Description
Usage
Arguments
Value
Examples
Description
Used to concatenate observation functions, prediction functions and parameter transformation functions.
Usage
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## S3 method for class 'fn'
p1 * p2
Arguments
p1
function of class obsfn, prdfn, parfn or idfn
p2
function of class obsfn, prdfn, parfn or idfn
Value
Object of the same class as x1 and x2.
Examples
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# Define a time grid on which to make a prediction by peace-wise linear function.
# Then define a (generic) prediction function based on thid grid.
times <- 0:5
grid <- data.frame(name = "A", time = times, row.names = paste0("p", times))
x <- Xd(grid)
# Define an observable and an observation function
observables <- eqnvec(Aobs = "s*A")
g <- Y(g = observables, f = NULL, states = "A", parameters = "s")
# Collect parameters and define an overarching parameter transformation
# for two "experimental condtions".
dynpars <- attr(x, "parameters")
obspars <- attr(g, "parameters")
innerpars <- c(dynpars, obspars)
trafo <- structure(innerpars, names = innerpars)
trafo_C1 <- replaceSymbols(innerpars, paste(innerpars, "C1", sep = "_"), trafo)
trafo_C2 <- replaceSymbols(innerpars, paste(innerpars, "C2", sep = "_"), trafo)
p <- NULL
p <- p + P(trafo = trafo_C1, condition = "C1")
p <- p + P(trafo = trafo_C2, condition = "C2")
# Collect outer (overarching) parameters and
# initialize with random values
outerpars <- attr(p, "parameters")
pars <- structure(runif(length(outerpars), 0, 1), names = outerpars)
# Predict internal/unobserved states
out1 <- (x*p)(times, pars)
plot(out1)
# Predict observed states in addition to unobserved
out2 <- (g*x*p)(times, pars)
plot(out2)
dMod documentation built on Jan. 27, 2021, 1:07 a.m.
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Description Usage Arguments Value Examples
Description
Used to concatenate observation functions, prediction functions and parameter transformation functions.
Usage
1 2 | ## S3 method for class 'fn'
p1 * p2
|
Arguments
p1 |
function of class |
p2 |
function of class |
Value
Object of the same class as x1 and x2.
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 | # Define a time grid on which to make a prediction by peace-wise linear function.
# Then define a (generic) prediction function based on thid grid.
times <- 0:5
grid <- data.frame(name = "A", time = times, row.names = paste0("p", times))
x <- Xd(grid)
# Define an observable and an observation function
observables <- eqnvec(Aobs = "s*A")
g <- Y(g = observables, f = NULL, states = "A", parameters = "s")
# Collect parameters and define an overarching parameter transformation
# for two "experimental condtions".
dynpars <- attr(x, "parameters")
obspars <- attr(g, "parameters")
innerpars <- c(dynpars, obspars)
trafo <- structure(innerpars, names = innerpars)
trafo_C1 <- replaceSymbols(innerpars, paste(innerpars, "C1", sep = "_"), trafo)
trafo_C2 <- replaceSymbols(innerpars, paste(innerpars, "C2", sep = "_"), trafo)
p <- NULL
p <- p + P(trafo = trafo_C1, condition = "C1")
p <- p + P(trafo = trafo_C2, condition = "C2")
# Collect outer (overarching) parameters and
# initialize with random values
outerpars <- attr(p, "parameters")
pars <- structure(runif(length(outerpars), 0, 1), names = outerpars)
# Predict internal/unobserved states
out1 <- (x*p)(times, pars)
plot(out1)
# Predict observed states in addition to unobserved
out2 <- (g*x*p)(times, pars)
plot(out2)
|
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