Duality theory and characterizations of optimal solutions for a class of conic linear problems
Abstract
For a primal-dual pair of conic linear problems that are described by convex cones S⊂ X, T⊂ Y, bilinear symmetric objective functions ·,·X, ·,·Y and a linear operator A:X→ Y, we show that the existence of optimal solutions x*∈ S, y*∈ T that satisfy Ax*=b and ATy*=c eventually comes down to the consistency and solvability of the problems min z,zY,\;z∈\Ax-b:x∈ S\ and min w,wX,\; w∈\ATy-c:y∈ T\. Assuming that these two problems are consistent and solvable, strong duality theorems as well as geometric and algebraic characterizations of optimal solutions are obtained via natural generalizations of the Farkas' Lemma without a closure condition. Some applications of the main theory are discussed in the cases of continuous linear programming and linear programming in complex space.
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