Benson's algorithm

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Benson's algorithm, named after Harold Benson, is a method for solving multi-objective linear programming problems and vector linear programs. This works by finding the "efficient extreme points in the outcome set".^[1] The primary concept in Benson's algorithm is to evaluate the upper image of the vector optimization problem by cutting planes.^[2]

Consider a vector linear program

${\displaystyle \underset{C}{\min }Px\text{ subject to }Ax\ge b}$

for ${\displaystyle P\in {ℝ}^{q\times n}}$, ${\displaystyle A\in {ℝ}^{m\times n}}$, ${\displaystyle b\in {ℝ}^m}$ and a polyhedral convex ordering cone ${\displaystyle C}$ having nonempty interior and containing no lines. The feasible set is ${\displaystyle S=\{x\in {ℝ}^n:Ax\ge b\}}$. In particular, Benson's algorithm finds the extreme points of the set ${\displaystyle P[S]+C}$, which is called upper image.^[2]

In case of ${\displaystyle C={ℝ}_{+}^q:=\{y\in {ℝ}^q:y_1\ge 0,\dots ,y_q\ge 0\}}$, one obtains the special case of a multi-objective linear program (multiobjective optimization).

There is a dual variant of Benson's algorithm,^[3] which is based on geometric duality^[4] for multi-objective linear programs.

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