Ghazal Fazelnia scite author profile

This paper is concerned with the problem of finding a low-rank solution of an arbitrary sparse linear matrix inequality (LMI). To this end, we map the sparsity of the LMI problem into a graph. We develop a theory relating the rank of the minimum-rank solution of the LMI problem to the sparsity of its underlying graph. Furthermore, we propose three graph-theoretic convex programs to obtain a low-rank solution. Two of these convex optimization problems need a tree decomposition of the sparsity graph, which is an NP-hard problem in the worst case. The third one does not rely on any computationally-expensive graph analysis and is always polynomial-time solvable. The results of this work can be readily applied to three separate problems of minimumrank matrix completion, conic relaxation for polynomial optimization, and affine rank minimization. The results are finally illustrated on two applications of optimal distributed control and nonlinear optimization for electrical networks.

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Low-rank solutions of matrix inequalities with applications to polynomial optimization and matrix completion problems

Madani

Fazelnia

Sojoudi

et al. 2014

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This paper is concerned with the problem of finding a low-rank solution of an arbitrary sparse linear matrix inequality (LMI). To this end, we map the sparsity of the LMI problem into a graph. We develop a theory relating the rank of the minimum-rank solution of the LMI problem to the sparsity of its underlying graph. Furthermore, we propose two graph-theoretic convex programs to obtain a low-rank solution. The first convex optimization needs a tree decomposition of the sparsity graph. The second one does not rely on any computationally-expensive graph analysis and is always polynomial-time solvable. The results of this work can be readily applied to three separate problems of minimumrank matrix completion, conic relaxation for polynomial optimization, and affine rank minimization. The results are finally illustrated on two applications of optimal distributed control and nonlinear optimization for electrical networks.

show abstract

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Ghazal Fazelnia

Convex Relaxation for Optimal Distributed Control Problems

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Convex relaxation for optimal distributed control problem

Finding Low-rank Solutions of Sparse Linear Matrix Inequalities using Convex Optimization

Low-rank solutions of matrix inequalities with applications to polynomial optimization and matrix completion problems

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