subplex: Minimization of a function by the subplex algorithm
In subplex: Unconstrained Optimization using the Subplex Algorithm
subplex R Documentation
Minimization of a function by the subplex algorithm
Description
subplex minimizes a function.
Usage
subplex(par, fn, control = list(), hessian = FALSE, ...)
Arguments
par
Initial guess of the parameters to be optimized over.
fn
The function to be minimized. Its first argument must be the
vector of parameters to be optimized over. It should return a scalar
result.
control
A list of control parameters, consisting of some or all of
the following:
- reltol
The relative optimization tolerance
for par. This must be a positive number. The default value is
.Machine$double.eps.
- maxit
Maximum number of function
evaluations to perform before giving up. The default value is 10000.
- parscale
The scale and initial stepsizes for the components of
par. This must either be a single scalar, in which case the same
scale is used for all parameters, or a vector of length equal to the length
of par. For parscale to be valid, it must not be too small
relative to par: if par + parscale = par in any component,
parscale is too small. The default value is 1.
hessian
If hessian=TRUE, the Hessian of the objective at the
estimated optimum will be numerically computed.
...
Additional arguments to be passed to the function fn.
Details
The convergence codes are as follows:
- -2
invalid input
- -1
number of function evaluations needed exceeds maxnfe
- 0
success: tolerance tol satisfied
- 1
limit of machine
precision reached
For more details, see the source code.
Value
subplex returns a list containing the following:
par
Estimated parameters that minimize the function.
value
Minimized value of the function.
count
Number of
function evaluations required.
convergence
Convergence code (see
Details).
message
A character string giving a diagnostic message
from the optimizer, or 'NULL'.
hessian
Hessian matrix.
Author(s)
Aaron A. King kingaa@umich.edu
References
T. Rowan, “Functional Stability Analysis of Numerical
Algorithms”, Ph.D. thesis, Department of Computer Sciences, University of
Texas at Austin, 1990.
See Also
optim
Examples
ripple <- function (x) {
r <- sqrt(sum(x^2))
1-exp(-r^2)*cos(10*r)^2
}
subplex(par=c(1),fn=ripple,hessian=TRUE)
subplex(par=c(0.1,3),fn=ripple,hessian=TRUE)
subplex(par=c(0.1,3,2),fn=ripple,hessian=TRUE)
## Rosenbrock Banana function
rosen <- function (x) {
x1 <- x[1]
x2 <- x[2]
100*(x2-x1*x1)^2+(1-x1)^2
}
subplex(par=c(11,-33),fn=rosen)
## Rosenbrock Banana function (using names)
rosen <- function (x, g = 0, h = 0) {
x1 <- x['a']
x2 <- x['b']-h
100*(x2-x1*x1)^2+(1-x1)^2+g
}
subplex(par=c(b=11,a=-33),fn=rosen,h=22,control=list(abstol=1e-9,parscale=5),hessian=TRUE)
subplex documentation built on Sept. 11, 2024, 6:11 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
| subplex | R Documentation |
Minimization of a function by the subplex algorithm
Description
subplex minimizes a function.
Usage
subplex(par, fn, control = list(), hessian = FALSE, ...)
Arguments
par |
Initial guess of the parameters to be optimized over. |
fn |
The function to be minimized. Its first argument must be the vector of parameters to be optimized over. It should return a scalar result. |
control |
A list of control parameters, consisting of some or all of the following:
|
hessian |
If |
... |
Additional arguments to be passed to the function |
Details
The convergence codes are as follows:
- -2
invalid input
- -1
number of function evaluations needed exceeds
maxnfe- 0
success: tolerance
tolsatisfied- 1
limit of machine precision reached
For more details, see the source code.
Value
subplex returns a list containing the following:
par |
Estimated parameters that minimize the function. |
value |
Minimized value of the function. |
count |
Number of function evaluations required. |
convergence |
Convergence code (see Details). |
message |
A character string giving a diagnostic message from the optimizer, or 'NULL'. |
hessian |
Hessian matrix. |
Author(s)
Aaron A. King kingaa@umich.edu
References
T. Rowan, “Functional Stability Analysis of Numerical Algorithms”, Ph.D. thesis, Department of Computer Sciences, University of Texas at Austin, 1990.
See Also
optim
Examples
ripple <- function (x) {
r <- sqrt(sum(x^2))
1-exp(-r^2)*cos(10*r)^2
}
subplex(par=c(1),fn=ripple,hessian=TRUE)
subplex(par=c(0.1,3),fn=ripple,hessian=TRUE)
subplex(par=c(0.1,3,2),fn=ripple,hessian=TRUE)
## Rosenbrock Banana function
rosen <- function (x) {
x1 <- x[1]
x2 <- x[2]
100*(x2-x1*x1)^2+(1-x1)^2
}
subplex(par=c(11,-33),fn=rosen)
## Rosenbrock Banana function (using names)
rosen <- function (x, g = 0, h = 0) {
x1 <- x['a']
x2 <- x['b']-h
100*(x2-x1*x1)^2+(1-x1)^2+g
}
subplex(par=c(b=11,a=-33),fn=rosen,h=22,control=list(abstol=1e-9,parscale=5),hessian=TRUE)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.