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You'll need the DEoptim package for this question:

install.packages("DEoptim")
library(DEoptim)

From the help(DEoptim)

Rosenbrock <- function(x){
x1 <- x[1]
x2 <- x[2]
100 * (x2 - x1 * x1)^2 + (1 - x1)^2
}

lower <- c(-10,-10)
upper <- -lower

## run DEoptim and set a seed first for replicability
set.seed(1234)
DEoptim(Rosenbrock, lower, upper)

Now this works fine: However, if I provide an initial population Npop with dim(Npop)[1] < 10*length(lower)

xini <- cbind(runif(10),runif(10))
ran <- abs(lower - upper)
Npop <- apply(xini,2,function(x) x*ran+lower)
DEoptim(Rosenbrock, lower, upper,DEoptim.control(initialpop = Npop))

I get the following error:

Error in DEoptim(Rosenbrock, lower, upper, DEoptim.control(initialpop = Npop)) : 
Initial population is not a matrix with dim. NP x length(upper).

How can I do this?

Related to this question: R DEoptim() function: How to select parameters to be opimised?

where e.g. 1 parameter is not estimated and I do not have to account for it in the DEoptim.control(initialpop)

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1 Answer 1

up vote 0 down vote accepted

Here's the workaround I got from the author of DEoptim()

library(DEoptim)

#From help(DEoptim)

Rosenbrock <- function(x){
          x1 <- x[1]
          x2 <- x[2]
          100 * (x2 - x1 * x1)^2 + (1 - x1)^2
}

lower <- c(-10,-10)
upper <- -lower

## run DEoptim and set a seed first for replicability

set.seed(1234)
DEoptim(Rosenbrock, lower, upper)

n <- length(lower) * 10 
# n <- length(lower) * 5 

xini <- cbind(runif(n),runif(n))
ran <- upper - lower
Npop <- as.matrix(apply(xini,2,function(x) x*ran+lower))
DEoptim(Rosenbrock, lower, upper, DEoptim.control(NP=n,initialpop = Npop))
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