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Optimization over an Affine Family of Linear Systems
Presented in this page is a general framework for optimizing various convex functionals for a system which depends affinely, or linearly, on a parameter using linear matrix inequalities. The optimization problem presented on this page generalizes an LMI which can be applied to various problems within linear systems and control. Some examples of these applications are finding the $$ H_{2} $$ and $$ H_{\infty} $$ norms, entropy, dissipativity, and the Hankel norm of an affinely parametric system.

The System
Consider a family of linear systems     $$ \dot x = Ax + B_{w}w, $$      $$ z = C_{z}({\theta})x + D_{zw}({\theta})w $$    with state space realization $$ (A,B_{w},C_{z},D_{zw}) $$ where $$ C_{z} $$ and $$D_{zw}$$ depend affinely on the parameter $$ {\theta}\in\mathbb{R}^{p} $$.

We assume $$ A $$ is stable and $$ (A,B_{w}) $$ is controllable.

The transfer function, $$ H_{\theta}(s) \widehat{=} C_{z}({\theta})(sI-A)^{-1}B_{w}+D_{zw}({\theta}) $$ depends affinely on $$ {\theta} $$.

The Data
The transfer function $$H$$, and system matrices $$A$$, $$B_{w}$$, $$C_{z}$$, $$ D_{zw} $$ are known. $$ {\varphi} $$ represents the convex functionals, $${\alpha} $$ and $${\psi}$$ represent some auxiliary variables dependent on the problem being solved.

The LMI:Generalized Optimization for Affine Linear Systems
Several control theory problems, mentioned earlier, take the following form: minimize $${\psi}_{0}(H_{\theta}) $$ subject to $${\psi}_{i}(H_{\theta}) < {\alpha}_{i}, i = 1,. . ., p $$

Problems of this nature can be formulated as an LMI by representing $${\psi}_{i}(H_{\theta}) < {\alpha}_{i} $$ as an LMI in $$ {\theta},{\alpha}_{i}, $$ and possibly $${\psi}_{i}$$ such that $$ F_{i}({\theta},{\alpha}_{i},{\psi}_{i}) > 0 $$

Thus, the general optimization problem to be applied to an affine family of linear systems is as follows: minimize $$ {\alpha}_{0} $$ subject to $$ F_{i}({\theta},{\alpha}_{i},{\psi}_{i}) > 0, i = 0,1,....,P $$

Conclusion:
The LMI for this generalized optimization problem may be extended to various convex functionals for affine parametric systems. For extensions of this LMI, see the related LMIs section.

Implementation
Implementation of LMI's of this form require Yalmip and a linear solver such as Sedumi or SDPT3.

$ H_{\infty} $ Norm for Affine Parametric Systems - MATLAB code for an extension of this generalized LMI.

Entropy Bond for Affine Parametric Systems - MATLAB code for an extension of this generalized LMI.

LMI can be applied to other extensions in stability and controller analysis. Please see the related LMI pages in the section below.

Related LMIs
$ H_{\infty} $ Norm for Affine Parametric Systems

Entropy Bond for Affine Parametric Systems

Dissipativity for Affine Parametric Systems

for Affine Parametric Systems

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