Fenchel-Moreau and Primal/Dual Optimization Problems: Difference between revisions

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:<math> f^{**}(x) \leq f(x) \quad \forall x \in X. </math>
:<math> f^{**}(x) \leq f(x) \quad \forall x \in X. </math>


In this way, it is clear that, in order for equality to hold, it is necessary for ''f'' to be convex and lower semicontinuous. The heart of Fenchel-Moreau Theorem is that this is also sufficient.
Consequently, in order for equality to hold, it is necessary for ''f'' to be convex and lower semicontinuous. The heart of Fenchel-Moreau Theorem is that this is also sufficient.


   
   

Revision as of 22:40, 7 April 2020

The Fenchel-Moreau Theorem is a fundamental result in convex analysis, characterizing the class of functions for which a function equals its biconjugate. A key consequence of this theorem is the equivalence of primal and dual optimization problems.

Fenchel-Moreau Theorem

Given a normed vector space X and , then

Background on Convex Conjugate Functions

LetX be a normed vector space, and let X* denote its topological dual. Given an extended real-valued function , its convex conjugate is defined by

An immediate consequence of this definition is Young's Inequality,

Furthermore, it follows directly from the definition that, for any function f, its conjugate function f* is convex and lower semicontinuous.

In a similar way, for any function f, its the biconjugate function is defined by

As above, for any function f, its biconjugate function f** is convex and lower semicontinuous. Furthermore, by Young's inequality, we always have

Consequently, in order for equality to hold, it is necessary for f to be convex and lower semicontinuous. The heart of Fenchel-Moreau Theorem is that this is also sufficient.


[1]

References

  1. H. Brezis, Functional Analysis.