Conic optimization
Conic optimization is a subfield of convex optimization that studies problems consisting of minimizing a convex function over the intersection of an affine subspace and a convex cone.
The class of conic optimization problems includes some of the most well known classes of convex optimization problems, namely linear and semidefinite programming.
Definition
Given a real vector space X, a convex, real-valued function
- [math]\displaystyle{ f:C \to \mathbb R }[/math]
defined on a convex cone [math]\displaystyle{ C \subset X }[/math], and an affine subspace [math]\displaystyle{ \mathcal{H} }[/math] defined by a set of affine constraints [math]\displaystyle{ h_i(x) = 0 \ }[/math], a conic optimization problem is to find the point [math]\displaystyle{ x }[/math] in [math]\displaystyle{ C \cap \mathcal{H} }[/math] for which the number [math]\displaystyle{ f(x) }[/math] is smallest.
Examples of [math]\displaystyle{ C }[/math] include the positive orthant [math]\displaystyle{ \mathbb{R}_+^n = \left\{ x \in \mathbb{R}^n : \, x \geq \mathbf{0}\right\} }[/math], positive semidefinite matrices [math]\displaystyle{ \mathbb{S}^n_{+} }[/math], and the second-order cone [math]\displaystyle{ \left \{ (x,t) \in \mathbb{R}^{n}\times \mathbb{R} : \lVert x \rVert \leq t \right \} }[/math]. Often [math]\displaystyle{ f \ }[/math] is a linear function, in which case the conic optimization problem reduces to a linear program, a semidefinite program, and a second order cone program, respectively.
Duality
Certain special cases of conic optimization problems have notable closed-form expressions of their dual problems.
Conic LP
The dual of the conic linear program
- minimize [math]\displaystyle{ c^T x \ }[/math]
- subject to [math]\displaystyle{ Ax = b, x \in C \ }[/math]
is
- maximize [math]\displaystyle{ b^T y \ }[/math]
- subject to [math]\displaystyle{ A^T y + s= c, s \in C^* \ }[/math]
where [math]\displaystyle{ C^* }[/math] denotes the dual cone of [math]\displaystyle{ C \ }[/math].
Whilst weak duality holds in conic linear programming, strong duality does not necessarily hold.[1]
Semidefinite Program
The dual of a semidefinite program in inequality form
- minimize [math]\displaystyle{ c^T x \ }[/math]
- subject to [math]\displaystyle{ x_1 F_1 + \cdots + x_n F_n + G \leq 0 }[/math]
is given by
- maximize [math]\displaystyle{ \mathrm{tr}\ (GZ)\ }[/math]
- subject to [math]\displaystyle{ \mathrm{tr}\ (F_i Z) +c_i =0,\quad i=1,\dots,n }[/math]
- [math]\displaystyle{ Z \geq0 }[/math]
References
External links
- Boyd, Stephen P.; Vandenberghe, Lieven (2004). Convex Optimization. Cambridge University Press. ISBN 978-0-521-83378-3. https://web.stanford.edu/~boyd/cvxbook/bv_cvxbook.pdf. Retrieved October 15, 2011.
- MOSEK Software capable of solving conic optimization problems.
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