LMIs in Control/pages/H2-OSE
LMIs in Control/pages/H2-OSE
The H2 norm of a stable system H is the root-mean-square of the impulse response of the system. The H2 norm measures the steady-state covariance (or power) of the output response to unit noise input. In this module, the goal of H2 optimal state estimation is to design an observer that minimizes the H2 norm of the closed loop transfer matrix
The System
[edit | edit source]Consider the continuous-time generalized plant P with state-space realization
where it is assumed that (A,C2) is detectable. An observer of the form
The Data
[edit | edit source]- ∈ n, ∈ l , ∈ m are respectively the state vector, the measured
output vector, and the output vector of interests
- ∈ p and ∈ r are the disturbance vector and the control vector,
respectively
- A, B1, B2, C1, C2, D1, and D2 are the system coefficient matrices of
appropriate dimensions
The Optimization Problem
[edit | edit source]Given the system and a positive scalar we have to find the matrix L such that
||||2 <
An observer of the form
is to be designed, where L is the observer gain.
Defining the error state as
The break dynamics are found to be
For the system we introduce a full state observer in the following form:
are the observation vector and the observer gain.
The transfer function for this case is
and thus the problem of state observer design is to find L such that
||
The LMI: LMI for H2 Observer estimation
[edit | edit source]The H2 state observer problem has a solution if and only if there exists a matrix , a symmetric matrix and a symmetric matrix such that
and from the solution of the above LMIs we can obtain the observer matrix as
Conclusion
[edit | edit source]Thus by formulation, we have converted the problem of H2 state observer design into an LMI feasibility problem by optimizing the above LMIs. In application we are often concerned with the problem of finding the minimal attenuation level
On implementation and optimization of the above LMI using YALMIP and MOSEK (or) SeDuMi we get 3 matrices as output, and also which is used to calculate which is the H2 norm of the system.
There exists another set of LMIs which holds true for the same optimization problem as above.
When a minimal is obtained, the minimal attenuation level is
Implementation
[edit | edit source]A link to the Matlab code for a simple implementation of this problem in the Github repository:
https://github.com/yashgvd/ygovada
Related LMIs
[edit | edit source]H State Observer Design
Discrete time H2 State Observer Design
External Links
[edit | edit source]- [1] - LMI in Control Systems Analysis, Design and Applications
- 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.