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solnp

Nonlinear optimization using augmented Lagrange method.


Description

The solnp function is based on the solver by Yinyu Ye which solves the general nonlinear programming problem:

min f(x)

s.t.

g(x) = 0

l[h] <= h(x) <= u[h]

l[x] <= x <= u[x]

where, f(x), g(x) and h(x) are smooth functions.

Usage

solnp(pars, fun, eqfun = NULL, eqB = NULL, ineqfun = NULL, ineqLB = NULL, 
ineqUB = NULL, LB = NULL, UB = NULL, control = list(), ...)

Arguments

pars

The starting parameter vector.

fun

The main function which takes as first argument the parameter vector and returns a single value.

eqfun

(Optional) The equality constraint function returning the vector of evaluated equality constraints.

eqB

(Optional) The equality constraints.

ineqfun

(Optional) The inequality constraint function returning the vector of evaluated inequality constraints.

ineqLB

(Optional) The lower bound of the inequality constraints.

ineqUB

(Optional) The upper bound of the inequality constraints.

LB

(Optional) The lower bound on the parameters.

UB

(Optional) The upper bound on the parameters.

control

(Optional) The control list of optimization parameters. See below for details.

...

(Optional) Additional parameters passed to the main, equality or inequality functions. Note that the main and constraint functions must take the exact same arguments, irrespective of whether they are used by all of them.

Details

The solver belongs to the class of indirect solvers and implements the augmented Lagrange multiplier method with an SQP interior algorithm.

Value

A list containing the following values:

pars

Optimal Parameters.

convergence

Indicates whether the solver has converged (0) or not (1 or 2).

values

Vector of function values during optimization with last one the value at the optimal.

lagrange

The vector of Lagrange multipliers.

hessian

The Hessian of the augmented problem at the optimal solution.

ineqx0

The estimated optimal inequality vector of slack variables used for transforming the inequality into an equality constraint.

nfuneval

The number of function evaluations.

elapsed

Time taken to compute solution.

Control

rho

This is used as a penalty weighting scaler for infeasibility in the augmented objective function. The higher its value the more the weighting to bring the solution into the feasible region (default 1). However, very high values might lead to numerical ill conditioning or significantly slow down convergence.

outer.iter

Maximum number of major (outer) iterations (default 400).

inner.iter

Maximum number of minor (inner) iterations (default 800).

delta

Relative step size in forward difference evaluation (default 1.0e-7).

tol

Relative tolerance on feasibility and optimality (default 1e-8).

trace

The value of the objective function and the parameters is printed at every major iteration (default 1).

Note

The control parameters tol and delta are key in getting any possibility of successful convergence, therefore it is suggested that the user change these appropriately to reflect their problem specification.
The solver is a local solver, therefore for problems with rough surfaces and many local minima there is absolutely no reason to expect anything other than a local solution.

Author(s)

Alexios Ghalanos and Stefan Theussl
Y.Ye (original matlab version of solnp)

References

Y.Ye, Interior algorithms for linear, quadratic, and linearly constrained non linear programming, PhD Thesis, Department of EES Stanford University, Stanford CA.

Examples

# From the original paper by Y.Ye
# see the unit tests for more....
#---------------------------------------------------------------------------------
# POWELL Problem
fn1=function(x)
{
	exp(x[1]*x[2]*x[3]*x[4]*x[5])
}

eqn1=function(x){
	z1=x[1]*x[1]+x[2]*x[2]+x[3]*x[3]+x[4]*x[4]+x[5]*x[5]
	z2=x[2]*x[3]-5*x[4]*x[5]
	z3=x[1]*x[1]*x[1]+x[2]*x[2]*x[2]
	return(c(z1,z2,z3))
}


x0 = c(-2, 2, 2, -1, -1)
powell=solnp(x0, fun = fn1, eqfun = eqn1, eqB = c(10, 0, -1))

Rsolnp

General Non-Linear Optimization

v1.16
GPL
Authors
Alexios Ghalanos and Stefan Theussl
Initial release
2015-07-02

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