Generalized semi-infinite programming

In mathematics, a semi-infinite programming (SIP) problem is an optimization problem with a finite number of variables and an infinite number of constraints. The constraints are typically parameterized. In a generalized semi-infinite programming (GSIP) problem, the feasible set of the parameters depends on the variables.[1]

Mathematical formulation of the problem

The problem can be stated simply as:

\min \limits _{x\in X}\;\;f(x)

{\mbox{subject to: }}\

g(x,y)\leq 0,\;\;\forall y\in Y(x)

where

f:R^{n}\to R

g:R^{n}\times R^{m}\to R

X\subseteq R^{n}

Y\subseteq R^{m}.

In the special case that the set : $Y(x)$ is nonempty for all $x\in X$ GSIP can be cast as bilevel programs (Multilevel programming).

Methods for solving the problem

Examples

gollark: Just name all your functions a through z.

gollark: `%` is already niche.

gollark: Not EVERY operation needs an OPERATOR, apioform.

gollark: > read_file_allocation_table_filesystem_superblock()Is that a problem?

gollark: Maybe just "prefix" functions with `'` to indicate QUOTATION?

References

O. Stein and G. Still, On generalized semi-infinite optimization and bilevel optimization, European J. Oper. Res., 142 (2002), pp. 444-462

External links

Mathematical Programming Glossary

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[1] O. Stein and G. Still, On generalized semi-infinite optimization and bilevel optimization, European J. Oper. Res., 142 (2002), pp. 444-462