Kolmogorov–Zurbenko filter: Difference between revisions

Vector optimization is an optimization problem of simultaneously optimizing multiple objective functions subject to constraints and a given ordering. Any multi-objective optimization problem is a vector optimization problem with the trivial ordering.

Canonical example

In mathematical terms, the vector optimization problem can be written as:

${\displaystyle C\operatorname {-} \min _{x\in M}f(x)}$

where ${\displaystyle f:X\to Z}$ for some vector spaces ${\displaystyle X,Z}$, ${\displaystyle M\subseteq X}$, ${\displaystyle C\subseteq Z}$ is an ordering cone in ${\displaystyle Z}$, and ${\displaystyle C\operatorname {-} \min }$ denotes minimizing with respect to the ordering cone.

The solution to this minimization problem is the smallest set ${\displaystyle S}$ such that for every ${\displaystyle s\in S}$ there exists a ${\displaystyle x\in M}$ where ${\displaystyle f(x)=s}$ and ${\displaystyle S+C\supseteq \{f(x):x\in M\}}$.

Solution types

• ${\displaystyle {\bar {x}}}$ is a weakly efficient point (w-minimizer) if there exists a neighborhood ${\displaystyle U}$ around ${\displaystyle {\bar {x}}}$ such that for every ${\displaystyle x\in U}$ it follows that ${\displaystyle f(x)-f({\bar {x}})\not \in -\operatorname {int} C}$.
• ${\displaystyle {\bar {x}}}$ is an efficient point (e-minimizer) if there exists a neighborhood ${\displaystyle U}$ around ${\displaystyle {\bar {x}}}$ such that for every ${\displaystyle x\in U}$ it follows that ${\displaystyle f(x)-f({\bar {x}})\not \in -(C\backslash \{0\})}$.
• ${\displaystyle {\bar {x}}}$ is a properly efficient point (p-minimizer) if ${\displaystyle {\bar {x}}}$ is a weakly efficient point with respect to a closed pointed convex cone ${\displaystyle {\tilde {C}}}$ where ${\displaystyle C\backslash \{0\}\subseteq \operatorname {int} {\tilde {C}}}$.

Every p-minimizer is an e-minimizer. And every e-minimizer is a w-minimizer.^[1]

Solution methods

• Benson's algorithm for linear vector optimization problems^[2]

Relation to multi-objective optimization

Any multi-objective optimization problem can be written as

${\displaystyle \mathbb {R} _{+}^{d}\operatorname {-} \min _{x\in M}f(x)}$

where ${\displaystyle f:X\to \mathbb {R} ^{d}}$ and ${\displaystyle \mathbb {R} _{+}^{d}}$ is the positive orthant of ${\displaystyle \mathbb {R} ^{d}}$. Thus the solution set of this vector optimization problem is given by the Pareto efficient points.

References

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