Fenchel-Moreau and Primal/Dual Optimization Problems: Difference between revisions
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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. | The Fenchel-Moreau Theorem<ref name="Brezis" /> 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== | ==Fenchel-Moreau Theorem== | ||
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==References== | ==References== | ||
<references> | <references> | ||
<ref name="Brezis">H. Brezis, ''Functional Analysis''.</ref> | <ref name="Brezis">H. Brezis, ''Functional Analysis'', Chapter 1.</ref> | ||
</references> | </references> |
Revision as of 22:41, 7 April 2020
The Fenchel-Moreau Theorem[1] 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 condition is also sufficient.
References
- ↑ H. Brezis, Functional Analysis, Chapter 1.