Polynomial-sized semidefinite representations of derivative relaxations of spectrahedral cones

Author(s)

Saunderson, James F; Parrilo, Pablo A

Abstract

We give explicit polynomial-sized (in n and k) semidefinite representations of the hyperbolicity cones associated with the elementary symmetric polynomials of degree k in n variables. These convex cones form a family of non-polyhedral outer approximations of the non-negative orthant that preserve low-dimensional faces while successively discarding high-dimensional faces. More generally we construct explicit semidefinite representations (polynomial-sized in k,m, and n) of the hyperbolicity cones associated with kth directional derivatives of polynomials of the form p(x)=det(∑[superscript n][subscript i=1]A[subscript i]x[subscript i]) where the A[subscript i] are m×m symmetric matrices. These convex cones form an analogous family of outer approximations to any spectrahedral cone. Our representations allow us to use semidefinite programming to solve the linear cone programs associated with these convex cones as well as their (less well understood) dual cones.

Date issued

2014-08

URI

http://hdl.handle.net/1721.1/110332

Department

Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science

Journal

Mathematical Programming

Publisher

Springer Berlin Heidelberg

Citation

Saunderson, James, and Pablo A. Parrilo. “Polynomial-Sized Semidefinite Representations of Derivative Relaxations of Spectrahedral Cones.” Mathematical Programming 153.2 (2015): 309–331.

Version: Author's final manuscript

ISSN

0025-5610

1436-4646