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Benson's algorithm, named after Harold Benson, is a method for solving linear multi-objective optimization 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]

Idea of algorithm

Consider a vector linear program

\min _{C}Px\;{\text{ subject to }}Ax\geq b

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

In case of $C=\mathbb {R} _{+}^{q}:=\{y\in \mathbb {R} ^{q}:y_{1}\geq 0,\dots ,y_{q}\geq 0\}$ , one obtains the special case of a multi-objective linear program (multiobjective optimization).

Dual algorithm

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

Implementations

Bensolve - a free VLP solver

www.bensolve.org

Inner

Link to github

References

^ Harold P. Benson (1998). "An Outer Approximation Algorithm for Generating All Efficient Extreme Points in the Outcome Set of a Multiple Objective Linear Programming Problem". Journal of Global Optimization. 13 (1): 1–24. doi:10.1023/A:1008215702611. Retrieved September 21, 2013.
^ ^a ^b Andreas Löhne (2011). Vector Optimization with Infimum and Supremum. Springer. pp. 162–169. ISBN 9783642183508.
^ Ehrgott, Matthias; Löhne, Andreas; Shao, Lizhen (2011). "A dual variant of Benson's "outer approximation algorithm" for multiple objective linear programming". Journal of Global Optimization. 52 (4): 757–778. doi:10.1007/s10898-011-9709-y. ISSN 0925-5001.
^ Heyde, Frank; Löhne, Andreas (2008). "Geometric Duality in Multiple Objective Linear Programming". SIAM Journal on Optimization. 19 (2): 836–845. doi:10.1137/060674831. ISSN 1052-6234.

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[Benson-1] Harold P. Benson (1998). "An Outer Approximation Algorithm for Generating All Efficient Extreme Points in the Outcome Set of a Multiple Objective Linear Programming Problem". Journal of Global Optimization. 13 (1): 1–24. doi:10.1023/A:1008215702611. Retrieved September 21, 2013.

[Lohne-2] Andreas Löhne (2011). Vector Optimization with Infimum and Supremum. Springer. pp. 162–169. ISBN 9783642183508.

[EhrgottLöhne2011-3] Ehrgott, Matthias; Löhne, Andreas; Shao, Lizhen (2011). "A dual variant of Benson's "outer approximation algorithm" for multiple objective linear programming". Journal of Global Optimization. 52 (4): 757–778. doi:10.1007/s10898-011-9709-y. ISSN 0925-5001.

[HeydeLöhne2008-4] Heyde, Frank; Löhne, Andreas (2008). "Geometric Duality in Multiple Objective Linear Programming". SIAM Journal on Optimization. 19 (2): 836–845. doi:10.1137/060674831. ISSN 1052-6234.

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 == Implementations ==
-Bensolve - a free VLP solver (C programming language)
+Bensolve - a free VLP solver
 * [http://bensolve.org www.bensolve.org]
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