LMIs in Control/pages/Maximum Singular Value of a Complex Matrix

LMIs in Control/pages/Maximum Singular Value of a Complex Matrix

Maximum Singular Value of a Complex Matrix

The System[edit | edit source]

Consider ${\displaystyle A\in \mathbb {R} ^{n\times m}}$ as well as ${\displaystyle \gamma }$. A maximum singular value of a matrix ${\displaystyle A}$ is less than ${\displaystyle \gamma }$ if and only if ${\displaystyle AA^{H}<\gamma ^{2}I}$, where ${\displaystyle A^{H}}$ is the conjugate transpose or Hermitian transpose of the matrix ${\displaystyle A}$.

The Data[edit | edit source]

The matrix ${\displaystyle A}$ is the only data required.

The Optimization Problem[edit | edit source]

The LMI: Maximum Singular Value of a Complex Matrix[edit | edit source]

Using the Shur complement procedure, the following LMIs can be constructed:

${\displaystyle {\begin{aligned}{\bar {\sigma }}(A)<\gamma \\{\begin{bmatrix}\gamma I&A\\A^{H}&\gamma I\end{bmatrix}}&>0\\\end{aligned}}}$

The following LMI is also equivalent:

${\displaystyle {\begin{aligned}{\bar {\sigma }}(A)<\gamma \\{\begin{bmatrix}\gamma I&A^{H}\\A&\gamma I\end{bmatrix}}&>0\\\end{aligned}}}$

Conclusion:[edit | edit source]

The results from this LMI will give the maximum complex value of the matrix ${\displaystyle A}$:

${\displaystyle {\begin{aligned}{\bar {\sigma }}(A)<\gamma \end{aligned}}}$

Implementation[edit | edit source]

• Maximum Singular Value Example

% Maximimum Singular Value of Complex Matrix
% -- EXAMPLE --

%Clears all variables
clear; clc; close all;

%SDPVAR variables
gam1 = sdpvar(1);
gam2 = sdpvar(1);

%Example Matrix A
A = rand(9,6)+rand(9,6)*1i;

%Constraint Matrix for LMI optimization
M1 = [gam1*eye(9) A; A' gam1*eye(6)];

%Equivalent counter Matrix
M2 = [gam2*eye(6) A';A gam2*eye(9)]; 

%Constraints
Fc1 = (M1 >= 0);
Fc2 = (M2 >= 0);

%Objective function
obj1=gam1;
obj2=gam2;

%options
opt = sdpsettings('solver','sedumi');

%Optimization
optimize(Fc1,obj1,opt)
optimize(Fc2,obj2,opt)

%Displays output
fprintf('\nValue of Max singular value (using first method): ')
disp(value(gam1))

fprintf('\nValue of Max singular value (using second method): ')
disp(value(gam2))

fprintf('\nMATLAB verified output: ')
disp(norm(norm(A)))

Related LMIs[edit | edit source]

• Minimum singular value of a complex matrix

External Links[edit | edit source]

• LMI Methods in Optimal and Robust Control - A course on LMIs in Control by Matthew Peet.
• LMI Properties and Applications in Systems, Stability, and Control Theory - A List of LMIs by Ryan Caverly and James Forbes.
• LMIs in Systems and Control Theory - A downloadable book on LMIs by Stephen Boyd.

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