CGO arbfMIP

Purpose

Solve general constrained mixed-integer global black-box optimization problems with costly objective functions.

The optimization problem is of the following form

${\displaystyle {\begin{array}{cccccc}\min \limits _{x}&f(x)&&&&\\s/t&x_{L}&\leq &x&\leq &x_{U}\\&b_{L}&\leq &Ax&\leq &b_{U}\\&c_{L}&\leq &c(x)&\leq &c_{U}\\&~x_{j}\in \mathbb {N} \ ~~\forall j\in \mathbb {I} ,\\\end{array}}}$

where ${\displaystyle f(x)\in \mathbb {R} }$; ${\displaystyle x_{L},~x,~x_{U}\in \mathbb {R} ^{d}}$; the ${\displaystyle m_{1}}$ linear constraints are defined by ${\displaystyle A\in \mathbb {R} ^{m_{1}\times d}}$, ${\displaystyle b_{L},~b_{U}\in \mathbb {R} ^{m_{1}}}$; and the ${\displaystyle m_{2}}$ nonlinear constraints are defined by ${\displaystyle c_{L},~c(x),~c_{U}\in ~\mathbb {R} ^{m_{2}}}$. The variables ${\displaystyle x_{I}}$ are restricted to be integers, where ${\displaystyle \mathbb {I} }$ is an index subset of ${\displaystyle \{1,\ldots ,d\},}$ possibly empty. It is assumed that the function ${\displaystyle f(x)}$ is continuous with respect to all variables, even if there is a demand that some variables only take integer values. Otherwise it would not make sense to do the surrogate modeling of ${\displaystyle f(x)}$ used by all CGO solvers.

f (x) is assumed to be a costly function while c(x) is assumed to be cheaply computed. Any costly constraints can be treated by adding penalty terms to the objective function in the following way:

${\displaystyle {\begin{array}{ll}\min \limits _{x}&p(x)=f(x)+\sum \limits _{j}w_{j}\max \left(0,~c^{j}(x)-c_{U}^{j},~~c_{L}^{j}-c^{j}(x)\right),\end{array}}}$

where weighting parameters w_j have been added. The user then returns p(x) instead of f (x) to the CGO solver.

Calling Syntax

Result = arbfMIP(Prob,varargin) 
Result = tomRun('arbfMIP', Prob);

Description of Inputs

Problem structure

The following fields are used in the problem description structure Prob:

Description of Outputs

Structure with result from optimization. The following fields are changed:

Description

arbfMIP implements the Adaptive Radial Basis Function (ARBF) algorithm. The ARBF method handles linear equality and inequality constraints, and nonlinear equality and inequality constraints, as well as mixed-integer problems.

M-files Used

daceInit.m, iniSolve.m, endSolve.m, conAssign.m, glcAssign.m, snSolve.m, gnSolve.m, expDesign.m.

MEX-files Used

tomsol

See Also

rbfSolve.m and ego.m

Warnings

Observe that when cancelling with CTRL+C during a run, some memory allocated by arbfMIP will not be deallocated. To deallocate, do:

''>> ''clear cgolib