User talk:Karthikraoa

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The following is a problem very similar to the problem "Convex Iteration rank-1" in Jon Dattorro's book CONVEX OPTIMIZATION & EUCLIDEAN DISTANCE GEOMETRY:

$LaTeX: \mathbb{S}^n$ is the space of $LaTeX: n\times n$ symmetric matrices.

$LaTeX: \,g$ is a vector.

$LaTeX: \,\delta(g)$ is a diagonal matrix whose main diagonal is $LaTeX: \,g.$

$LaTeX: \begin{array}{rl}\mbox{find}&X\!\in\mathbb{S}^n, ~g\in\mathbb{R}^n\\ \mbox{subject to} &A\,\mbox{svec}X = b\\ &\delta(g)Xc = d\\ &X\succeq 0\\ &\mbox{rank}X\le r \end{array}$

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@@ Line 1: / Line 1: @@
-The following is a problem very similar to the problem "Convex Iteration rank-1" in Jon Dattoro's book CONVEX OPTIMIZATION & EUCLIDEAN DISTANCE GEOMETRY:
+The following is a problem very similar to the problem "Convex Iteration rank-1" in Jon Dattorro's book CONVEX OPTIMIZATION & EUCLIDEAN DISTANCE GEOMETRY:
 <math>\mathbb{S}^n</math> is the space of <math>n\times n</math> symmetric matrices.
@@ Line 5: / Line 5: @@
 <math>\,g</math> is a vector.
-<math>\,\delta(g)</math> is a diagonal matrix whose main diagonal is <math>g</math>
+<math>\,\delta(g)</math> is a diagonal matrix whose main diagonal is <math>\,g.</math>
 <br>
-<math>\begin{array}{rl}\mbox{find}&X\in\mathbb{S}^n\\
+<math>\begin{array}{rl}\mbox{find}&X\!\in\mathbb{S}^n, ~g\in\mathbb{R}^n\\
 \mbox{subject to}
 &A\,\mbox{svec}X = b\\

User talk:Karthikraoa

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