nlfb: Nash variant of Marquardt nonlinear least squares solution...
In nlmrt: Functions for Nonlinear Least Squares Solutions (Deprecated!)
Description
Usage
Arguments
Details
Value
Note
Author(s)
References
See Also
Examples
Description
Given a nonlinear model expressed as an expression of the form
lhs ~ formula_for_rhs
and a start vector where parameters used in the model formula are named,
attempts to find the minimum of the residual sum of squares using the
Nash variant (Nash, 1979) of the Marquardt algorithm, where the linear
sub-problem is solved by a qr method.
Usage
1
2
Arguments
resfn
A function that evaluates the residual vector for computing the elements of
the sum of squares function at the set of parameters start.
jacfn
A function that evaluates the Jacobian of the sum of squares function, that
is, the matrix of partial derivatives of the residuals with respect to each
of the parameters. If NULL (default), uses an approximation.
?? put in character form as in optimx??
start
A named parameter vector. For our example, we could use
start=c(b1=1, b2=2.345, b3=0.123)
nls() takes a list, and that is permitted here also.
trace
Logical TRUE if we want intermediate progress to be reported. Default is FALSE.
lower
Lower bounds on the parameters. If a single number, this will be applied to all
parameters. Default -Inf.
upper
Upper bounds on the parameters. If a single number, this will be applied to all
parameters. Default Inf.
maskidx
Vector if indices of the parameters to be masked. These parameters will NOT be altered
by the algorithm. Note that the mechanism here is different from that in nlxb
which uses the names of the parameters.
control
A list of controls for the algorithm. These are:
watchMonitor progress if TRUE. Default is FALSE.
phiDefault is phi=1, which adds phi*Identity to Jacobian inner product.
lamdaInitial Marquardt adjustment (Default 0.0001). Odd spelling is deliberate.
offsetShift to test for floating-point equality. Default is 100.
lamincFactor to use to increase lamda. Default is 10.
lamdecFactor to use to decrease lamda is lamdec/laminc. Default lamdec=4.
femaxMaximum function (sum of squares) evaluations. Default is 10000,
which is extremely aggressive.
jemaxMaximum number of Jacobian evaluations. Default is 5000.
ndstepStepsize to use to computer numerical Jacobian approximatin. Default
is 1e-7.
rofftestDefault is TRUE. Use a termination test of the relative offset
orthogonality type. Useful for nonlinear regression problems.
smallsstestDefault is TRUE. Exit the function if the sum of squares falls
below (100 * .Machine$double.eps)^4 times the initial sumsquares. This is a test
for a “small” sum of squares, but there are problems which are very extreme
for which this control needs to be set FALSE.
...
Any data needed for computation of the residual vector from the expression
rhsexpression - lhsvar. Note that this is the negative of the usual residual,
but the sum of squares is the same. It is not clear how the dot variables should
be used, since data should be in 'data'.
Details
nlfb attempts to solve the nonlinear sum of squares problem by using
a variant of Marquardt's approach to stabilizing the Gauss-Newton method using
the Levenberg-Marquardt adjustment. This is explained in Nash (1979 or 1990) in
the sections that discuss Algorithm 23.
In this code, we solve the (adjusted) Marquardt equations by use of the
qr.solve(). Rather than forming the J'J + lambda*D matrix, we augment
the J matrix with extra rows and the y vector with null elements.
Value
A list of the following items
coefficients
A named vector giving the parameter values at the supposed solution.
ssquares
The sum of squared residuals at this set of parameters.
resid
The residual vector at the returned parameters.
jacobian
The jacobian matrix (partial derivatives of residuals w.r.t. the parameters)
at the returned parameters.
feval
The number of residual evaluations (sum of squares computations) used.
jeval
The number of Jacobian evaluations used.
Note
Special notes, if any, will appear here.
Author(s)
John C Nash <nashjc@uottawa.ca>
References
Nash, J. C. (1979, 1990) _Compact Numerical Methods for Computers.
Linear Algebra and Function Minimisation._ Adam Hilger./Institute
of Physics Publications
others!!
See Also
Function nls(), packages optim and optimx.
Examples
1
cat("See examples in nlmrt-package.Rd\n")
nlmrt documentation built on Sept. 19, 2017, 3 a.m.
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Description Usage Arguments Details Value Note Author(s) References See Also Examples
Description
Given a nonlinear model expressed as an expression of the form lhs ~ formula_for_rhs and a start vector where parameters used in the model formula are named, attempts to find the minimum of the residual sum of squares using the Nash variant (Nash, 1979) of the Marquardt algorithm, where the linear sub-problem is solved by a qr method.
Usage
1 2 |
Arguments
resfn |
A function that evaluates the residual vector for computing the elements of
the sum of squares function at the set of parameters |
jacfn |
A function that evaluates the Jacobian of the sum of squares function, that is, the matrix of partial derivatives of the residuals with respect to each of the parameters. If NULL (default), uses an approximation. ?? put in character form as in optimx?? |
start |
A named parameter vector. For our example, we could use
start=c(b1=1, b2=2.345, b3=0.123)
|
trace |
Logical TRUE if we want intermediate progress to be reported. Default is FALSE. |
lower |
Lower bounds on the parameters. If a single number, this will be applied to all parameters. Default -Inf. |
upper |
Upper bounds on the parameters. If a single number, this will be applied to all parameters. Default Inf. |
maskidx |
Vector if indices of the parameters to be masked. These parameters will NOT be altered
by the algorithm. Note that the mechanism here is different from that in |
control |
A list of controls for the algorithm. These are:
|
... |
Any data needed for computation of the residual vector from the expression rhsexpression - lhsvar. Note that this is the negative of the usual residual, but the sum of squares is the same. It is not clear how the dot variables should be used, since data should be in 'data'. |
Details
nlfb attempts to solve the nonlinear sum of squares problem by using
a variant of Marquardt's approach to stabilizing the Gauss-Newton method using
the Levenberg-Marquardt adjustment. This is explained in Nash (1979 or 1990) in
the sections that discuss Algorithm 23.
In this code, we solve the (adjusted) Marquardt equations by use of the
qr.solve(). Rather than forming the J'J + lambda*D matrix, we augment
the J matrix with extra rows and the y vector with null elements.
Value
A list of the following items
coefficients |
A named vector giving the parameter values at the supposed solution. |
ssquares |
The sum of squared residuals at this set of parameters. |
resid |
The residual vector at the returned parameters. |
jacobian |
The jacobian matrix (partial derivatives of residuals w.r.t. the parameters) at the returned parameters. |
feval |
The number of residual evaluations (sum of squares computations) used. |
jeval |
The number of Jacobian evaluations used. |
Note
Special notes, if any, will appear here.
Author(s)
John C Nash <nashjc@uottawa.ca>
References
Nash, J. C. (1979, 1990) _Compact Numerical Methods for Computers. Linear Algebra and Function Minimisation._ Adam Hilger./Institute of Physics Publications
others!!
See Also
Function nls(), packages optim and optimx.
Examples
1 | cat("See examples in nlmrt-package.Rd\n")
|
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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